Haswell EP-based Xeon E5 Models | ||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Main processor | ||||||||||||||
Model | Launched | Release Price | Sockets | Cores | Threads | L3$ | Freq | Turbo | TDP | Max Mem | HT | vPro | TBT 2.0 | TBMT 3.0 |
ZZZZZ4S Environments | ||||||||||||||
ZZZZZ2S Environments | ||||||||||||||
E5-2670 v3 | 8 September 2014 | $ 1,589.00
€ 1,430.10 |
2 | 12 | 24 | 30 MiB
30,720 KiB |
2.3 GHz
2,300 MHz |
3.1 GHz
3,100 MHz |
120 W
120,000 mW |
804,864 MiB
824,180,736 KiB |
✔ | ✔ | ✔ | ✘ |
ZZZZZ1S Environments | ||||||||||||||
Count: 1 | ||||||||||||||
Broadwell EP-based Xeon E5 Models | ||||||||||||||
Main processor | ||||||||||||||
Model | Launched | Release Price | Sockets | Cores | Threads | L3$ | Freq | Turbo | TDP | Max Mem | HT | vPro | TBT 2.0 | TBMT 3.0 |
ZZZZZ4S Environments | ||||||||||||||
E5-4610 v4 | 20 June 2016 | $ 1,219.00
€ 1,097.10 |
4 | 10 | 20 | 25 MiB
25,600 KiB |
1.8 GHz
1,800 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✘ | ✘ | |
E5-4620 v4 | 20 June 2016 | $ 1,668. 00
€ 1,501.20 |
4 | 10 | 20 | 25 MiB
25,600 KiB |
2.1 GHz
2,100 MHz |
2.6 GHz
2,600 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4627 v4 | 20 June 2016 | $ 2,225.00
€ 2,002.50 |
4 | 10 | 10 | 25 MiB
25,600 KiB |
2.6 GHz
2,600 MHz |
3.2 GHz
3,200 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✘ | ✘ | ✔ | ✘ |
E5-4628L v4 | 20 June 2016 | $ 2,535.00
€ 2,281.50 |
4 | 14 | 28 | 35 MiB
35,840 KiB |
1.8 GHz
1,800 MHz |
2.2 GHz
2,200 MHz |
75 W
75,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4640 v4 | 20 June 2016 | $ 2,837.00
€ 2,553.30 |
4 | 12 | 24 | 30 MiB
30,720 KiB |
2.1 GHz
2,100 MHz |
2.6 GHz
2,600 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4650 v4 | 20 June 2016 | $ 3,838.00
€ 3,454.20 |
4 | 14 | 28 | 35 MiB
35,840 KiB |
2.2 GHz
2,200 MHz |
2.8 GHz
2,800 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4655 v4 | 20 June 2016 | $ 4,616.00
€ 4,154.40 |
4 | 8 | 16 | 30 MiB
30,720 KiB |
2. 5 GHz
2,500 MHz |
3.2 GHz
3,200 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4660 v4 | 20 June 2016 | $ 4,727.00
€ 4,254.30 |
4 | 16 | 32 | 40 MiB
40,960 KiB |
2.2 GHz
2,200 MHz |
3 GHz
3,000 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4667 v4 | 20 June 2016 | $ 5,729.00
€ 5,156.10 |
4 | 18 | 36 | 45 MiB
46,080 KiB |
2.2 GHz
2,200 MHz |
3 GHz
3,000 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4669 v4 | 20 June 2016 | $ 7,007.00
€ 6,306.30 |
4 | 22 | 44 | 55 MiB
56,320 KiB |
2.2 GHz
2,200 MHz |
3 GHz
3,000 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
ZZZZZ2S Environments | ||||||||||||||
E5-2603 v4 | 20 June 2016 | $ 213. 00
€ 191.70 |
2 | 6 | 6 | 15 MiB
15,360 KiB |
1.7 GHz
1,700 MHz |
85 W
85,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✘ | ✔ | ✘ | ✘ | |
E5-2608L v4 | 20 June 2016 | $ 363.00
€ 326.70 |
2 | 8 | 16 | 20 MiB
20,480 KiB |
1.6 GHz
1,600 MHz |
1.7 GHz
1,700 MHz |
50 W
50,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2609 v4 | 20 June 2016 | $ 306. 00
€ 275.40 |
2 | 8 | 8 | 20 MiB
20,480 KiB |
1.7 GHz
1,700 MHz |
85 W
85,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✘ | ✔ | ✘ | ✘ | |
E5-2618L v4 | 20 June 2016 | $ 779.00
€ 701.10 |
2 | 10 | 20 | 25 MiB
25,600 KiB |
2.2 GHz
2,200 MHz |
3.2 GHz
3,200 MHz |
75 W
75,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2620 v4 | 20 June 2016 | $ 417. 00
€ 375.30 |
2 | 8 | 16 | 20 MiB
20,480 KiB |
2.1 GHz
2,100 MHz |
3 GHz
3,000 MHz |
85 W
85,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2623 v4 | 20 June 2016 | $ 444.00
€ 399.60 |
2 | 4 | 8 | 10 MiB
10,240 KiB |
2.6 GHz
2,600 MHz |
3.2 GHz
3,200 MHz |
85 W
85,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2628L v4 | 20 June 2016 | $ 1,364. 00
€ 1,227.60 |
2 | 12 | 24 | 30 MiB
30,720 KiB |
1.9 GHz
1,900 MHz |
2.4 GHz
2,400 MHz |
75 W
75,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2630 v4 | 20 June 2016 | $ 667.00
€ 600.30 |
2 | 10 | 20 | 25 MiB
25,600 KiB |
2.2 GHz
2,200 MHz |
3.1 GHz
3,100 MHz |
85 W
85,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2630L v4 | 20 June 2016 | $ 612.00
€ 550.80 |
2 | 10 | 20 | 25 MiB
25,600 KiB |
1.8 GHz
1,800 MHz |
2.9 GHz
2,900 MHz |
55 W
55,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2637 v4 | 20 June 2016 | $ 996.00
€ 896.40 |
2 | 4 | 8 | 10 MiB
10,240 KiB |
3.5 GHz
3,500 MHz |
3.7 GHz
3,700 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2640 v4 | 20 June 2016 | $ 939.00
€ 845.10 |
2 | 10 | 20 | 25 MiB
25,600 KiB |
2.4 GHz
2,400 MHz |
3.4 GHz
3,400 MHz |
90 W
90,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2643 v4 | 20 June 2016 | $ 1,552.00
€ 1,396.80 |
2 | 6 | 12 | 20 MiB
20,480 KiB |
3. 4 GHz
3,400 MHz |
3.7 GHz
3,700 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2648L v4 | 20 June 2016 | $ 1,544.00
€ 1,389.60 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
1.8 GHz
1,800 MHz |
2.5 GHz
2,500 MHz |
75 W
75,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2650 v4 | 20 June 2016 | $ 1,166.00
€ 1,049.40 |
2 | 12 | 24 | 30 MiB
30,720 KiB |
2.2 GHz
2,200 MHz |
2.9 GHz
2,900 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2650L v4 | 20 June 2016 | $ 1,329.00
€ 1,196.10 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
1.7 GHz
1,700 MHz |
2.5 GHz
2,500 MHz |
65 W
65,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2658 v4 | 20 June 2016 | $ 1,832. 00
€ 1,648.80 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
2.3 GHz
2,300 MHz |
2.8 GHz
2,800 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2660 v4 | 20 June 2016 | $ 1,445.00
€ 1,300.50 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
2 GHz
2,000 MHz |
3.2 GHz
3,200 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2667 v4 | 20 June 2016 | $ 2,057.00
€ 1,851.30 |
2 | 8 | 16 | 25 MiB
25,600 KiB |
3.2 GHz
3,200 MHz |
3.6 GHz
3,600 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2670 v4 | 20 June 2016 | 2 | 14 | 28 | 35 MiB
35,840 KiB |
3.1 GHz
3,100 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | ||
E5-2673 v4 | 20 June 2016 | 2 | 20 | 40 | 50 MiB
51,200 KiB |
2.3 GHz
2,300 MHz |
3.6 GHz
3,600 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | |
E5-2679 v4 | 20 June 2016 | 2 | 20 | 40 | 50 MiB
51,200 KiB |
2.5 GHz
2,500 MHz |
3.3 GHz
3,300 MHz |
200 W
200,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | |
E5-2680 v4 | 20 June 2016 | $ 1,745.00
€ 1,570.50 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
2.4 GHz
2,400 MHz |
3.3 GHz
3,300 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2682 v4 | 20 June 2016 | 2 | 16 | 32 | 40 MiB
40,960 KiB |
2.5 GHz
2,500 MHz |
3 GHz
3,000 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | |
E5-2683 v4 | 20 June 2016 | $ 1,846.00
€ 1,661.40 |
2 | 16 | 32 | 40 MiB
40,960 KiB |
2.1 GHz
2,100 MHz |
3 GHz
3,000 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2686 v4 | 20 June 2016 | 2 | 18 | 36 | 45 MiB
46,080 KiB |
2.3 GHz
2,300 MHz |
3 GHz
3,000 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | |
E5-2687W v4 | 20 June 2016 | $ 2,141.00
€ 1,926.90 |
2 | 12 | 24 | 30 MiB
30,720 KiB |
3 GHz
3,000 MHz |
3.5 GHz
3,500 MHz |
160 W
160,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2689 v4 | 20 June 2016 | $ 2,723.00
€ 2,450.70 |
2 | 10 | 20 | 25 MiB
25,600 KiB |
3.1 GHz
3,100 MHz |
3.8 GHz
3,800 MHz |
165 W
165,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2689A v4 | 20 June 2016 | 2 | 8 | 16 | 20 MiB
20,480 KiB |
3.4 GHz
3,400 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | ||
E5-2690 v4 | 20 June 2016 | $ 2,090.00
€ 1,881.00 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
2.6 GHz
2,600 MHz |
3.5 GHz
3,500 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2695 v4 | 20 June 2016 | $ 2,424.00
€ 2,181.60 |
2 | 18 | 36 | 45 MiB
46,080 KiB |
2.1 GHz
2,100 MHz |
3.3 GHz
3,300 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2696 v4 | 20 June 2016 | 2 | 22 | 44 | 55 MiB
56,320 KiB |
2.2 GHz
2,200 MHz |
3. 7 GHz
3,700 MHz |
150 W
150,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | |
E5-2697 v4 | 20 June 2016 | $ 2,702.00
€ 2,431.80 |
2 | 18 | 36 | 45 MiB
46,080 KiB |
2.3 GHz
2,300 MHz |
3.6 GHz
3,600 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2697A v4 | 20 June 2016 | $ 2,891.00
€ 2,601.90 |
2 | 16 | 32 | 40 MiB
40,960 KiB |
2.6 GHz
2,600 MHz |
3.6 GHz
3,600 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2698 v4 | 20 June 2016 | $ 3,226.00
€ 2,903.40 |
2 | 20 | 40 | 50 MiB
51,200 KiB |
2.2 GHz
2,200 MHz |
3.6 GHz
3,600 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2699 v4 | 20 June 2016 | $ 4,115. 00
€ 3,703.50 |
2 | 22 | 44 | 55 MiB
56,320 KiB |
2.2 GHz
2,200 MHz |
3.6 GHz
3,600 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2699A v4 | 25 October 2016 | $ 4,938.00
€ 4,444.20 |
2 | 22 | 44 | 55 MiB
56,320 KiB |
2.4 GHz
2,400 MHz |
3.6 GHz
3,600 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2699R v4 | 25 October 2016 | $ 4,560.00
€ 4,104.00 |
2 | 22 | 44 | 55 MiB
56,320 KiB |
2.2 GHz
2,200 MHz |
3.6 GHz
3,600 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
ZZZZZ1S Environments | ||||||||||||||
E5-1603 v4 | 20 June 2016 | 1 | 4 | 4 | 10 MiB
10,240 KiB |
2.8 GHz
2,800 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✘ | ✔ | ✘ | ✘ | ||
E5-1607 v4 | 20 June 2016 | 1 | 4 | 4 | 10 MiB
10,240 KiB |
3.1 GHz
3,100 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✘ | ✔ | ✘ | ✘ | ||
E5-1620 v4 | 20 June 2016 | $ 294.00
€ 264.60 |
1 | 4 | 8 | 10 MiB
10,240 KiB |
3.5 GHz
3,500 MHz |
3.8 GHz
3,800 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-1630 v4 | 20 June 2016 | $ 406.00
€ 365.40 |
1 | 4 | 8 | 10 MiB
10,240 KiB |
3.7 GHz
3,700 MHz |
4 GHz
4,000 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-1650 v4 | 20 June 2016 | $ 617.00
€ 555.30 |
1 | 6 | 12 | 15 MiB
15,360 KiB |
3. 6 GHz
3,600 MHz |
4 GHz
4,000 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-1660 v4 | 20 June 2016 | $ 1,113.00
€ 1,001.70 |
1 | 8 | 16 | 20 MiB
20,480 KiB |
3.2 GHz
3,200 MHz |
3.8 GHz
3,800 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-1680 v4 | 20 June 2016 | $ 1,723.00
€ 1,550.70 |
1 | 8 | 16 | 20 MiB
20,480 KiB |
3.4 GHz
3,400 MHz |
4 GHz
4,000 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
Count: 54 |
Haswell EP-based Xeon E5 Models | ||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Main processor | ||||||||||||||
Model | Launched | Release Price | Sockets | Cores | Threads | L3$ | Freq | Turbo | TDP | Max Mem | HT | vPro | TBT 2. 0 | TBMT 3.0 |
ZZZZZ4S Environments | ||||||||||||||
ZZZZZ2S Environments | ||||||||||||||
E5-2670 v3 | 8 September 2014 | $ 1,589.00
€ 1,430.10 |
2 | 12 | 24 | 30 MiB
30,720 KiB |
2.3 GHz
2,300 MHz |
3.1 GHz
3,100 MHz |
120 W
120,000 mW |
804,864 MiB
824,180,736 KiB |
✔ | ✔ | ✔ | ✘ |
ZZZZZ1S Environments | ||||||||||||||
Count: 1 | ||||||||||||||
Broadwell EP-based Xeon E5 Models | ||||||||||||||
Main processor | ||||||||||||||
Model | Launched | Release Price | Sockets | Cores | Threads | L3$ | Freq | Turbo | TDP | Max Mem | HT | vPro | TBT 2.0 | TBMT 3.0 |
ZZZZZ4S Environments | ||||||||||||||
E5-4610 v4 | 20 June 2016 | $ 1,219.00
€ 1,097.10 |
4 | 10 | 20 | 25 MiB
25,600 KiB |
1.8 GHz
1,800 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✘ | ✘ | |
E5-4620 v4 | 20 June 2016 | $ 1,668.00
€ 1,501.20 |
4 | 10 | 20 | 25 MiB
25,600 KiB |
2.1 GHz
2,100 MHz |
2.6 GHz
2,600 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4627 v4 | 20 June 2016 | $ 2,225.00
€ 2,002.50 |
4 | 10 | 10 | 25 MiB
25,600 KiB |
2.6 GHz
2,600 MHz |
3.2 GHz
3,200 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✘ | ✘ | ✔ | ✘ |
E5-4628L v4 | 20 June 2016 | $ 2,535.00
€ 2,281.50 |
4 | 14 | 28 | 35 MiB
35,840 KiB |
1.8 GHz
1,800 MHz |
2.2 GHz
2,200 MHz |
75 W
75,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4640 v4 | 20 June 2016 | $ 2,837. 00
€ 2,553.30 |
4 | 12 | 24 | 30 MiB
30,720 KiB |
2.1 GHz
2,100 MHz |
2.6 GHz
2,600 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4650 v4 | 20 June 2016 | $ 3,838.00
€ 3,454.20 |
4 | 14 | 28 | 35 MiB
35,840 KiB |
2.2 GHz
2,200 MHz |
2.8 GHz
2,800 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4655 v4 | 20 June 2016 | $ 4,616.00
€ 4,154.40 |
4 | 8 | 16 | 30 MiB
30,720 KiB |
2.5 GHz
2,500 MHz |
3.2 GHz
3,200 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4660 v4 | 20 June 2016 | $ 4,727.00
€ 4,254.30 |
4 | 16 | 32 | 40 MiB
40,960 KiB |
2.2 GHz
2,200 MHz |
3 GHz
3,000 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4667 v4 | 20 June 2016 | $ 5,729.00
€ 5,156.10 |
4 | 18 | 36 | 45 MiB
46,080 KiB |
2.2 GHz
2,200 MHz |
3 GHz
3,000 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4669 v4 | 20 June 2016 | $ 7,007.00
€ 6,306.30 |
4 | 22 | 44 | 55 MiB
56,320 KiB |
2. 2 GHz
2,200 MHz |
3 GHz
3,000 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
ZZZZZ2S Environments | ||||||||||||||
E5-2603 v4 | 20 June 2016 | $ 213.00
€ 191.70 |
2 | 6 | 6 | 15 MiB
15,360 KiB |
1.7 GHz
1,700 MHz |
85 W
85,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✘ | ✔ | ✘ | ✘ | |
E5-2608L v4 | 20 June 2016 | $ 363.00
€ 326. 70 |
2 | 8 | 16 | 20 MiB
20,480 KiB |
1.6 GHz
1,600 MHz |
1.7 GHz
1,700 MHz |
50 W
50,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2609 v4 | 20 June 2016 | $ 306.00
€ 275.40 |
2 | 8 | 8 | 20 MiB
20,480 KiB |
1.7 GHz
1,700 MHz |
85 W
85,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✘ | ✔ | ✘ | ✘ | |
E5-2618L v4 | 20 June 2016 | $ 779. 00
€ 701.10 |
2 | 10 | 20 | 25 MiB
25,600 KiB |
2.2 GHz
2,200 MHz |
3.2 GHz
3,200 MHz |
75 W
75,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2620 v4 | 20 June 2016 | $ 417.00
€ 375.30 |
2 | 8 | 16 | 20 MiB
20,480 KiB |
2.1 GHz
2,100 MHz |
3 GHz
3,000 MHz |
85 W
85,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2623 v4 | 20 June 2016 | $ 444. 00
€ 399.60 |
2 | 4 | 8 | 10 MiB
10,240 KiB |
2.6 GHz
2,600 MHz |
3.2 GHz
3,200 MHz |
85 W
85,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2628L v4 | 20 June 2016 | $ 1,364.00
€ 1,227.60 |
2 | 12 | 24 | 30 MiB
30,720 KiB |
1.9 GHz
1,900 MHz |
2.4 GHz
2,400 MHz |
75 W
75,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2630 v4 | 20 June 2016 | $ 667.00
€ 600.30 |
2 | 10 | 20 | 25 MiB
25,600 KiB |
2.2 GHz
2,200 MHz |
3.1 GHz
3,100 MHz |
85 W
85,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2630L v4 | 20 June 2016 | $ 612.00
€ 550.80 |
2 | 10 | 20 | 25 MiB
25,600 KiB |
1.8 GHz
1,800 MHz |
2.9 GHz
2,900 MHz |
55 W
55,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2637 v4 | 20 June 2016 | $ 996.00
€ 896.40 |
2 | 4 | 8 | 10 MiB
10,240 KiB |
3.5 GHz
3,500 MHz |
3.7 GHz
3,700 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2640 v4 | 20 June 2016 | $ 939.00
€ 845.10 |
2 | 10 | 20 | 25 MiB
25,600 KiB |
2. 4 GHz
2,400 MHz |
3.4 GHz
3,400 MHz |
90 W
90,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2643 v4 | 20 June 2016 | $ 1,552.00
€ 1,396.80 |
2 | 6 | 12 | 20 MiB
20,480 KiB |
3.4 GHz
3,400 MHz |
3.7 GHz
3,700 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2648L v4 | 20 June 2016 | $ 1,544.00
€ 1,389.60 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
1.8 GHz
1,800 MHz |
2.5 GHz
2,500 MHz |
75 W
75,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2650 v4 | 20 June 2016 | $ 1,166.00
€ 1,049.40 |
2 | 12 | 24 | 30 MiB
30,720 KiB |
2.2 GHz
2,200 MHz |
2.9 GHz
2,900 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2650L v4 | 20 June 2016 | $ 1,329. 00
€ 1,196.10 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
1.7 GHz
1,700 MHz |
2.5 GHz
2,500 MHz |
65 W
65,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2658 v4 | 20 June 2016 | $ 1,832.00
€ 1,648.80 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
2.3 GHz
2,300 MHz |
2.8 GHz
2,800 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2660 v4 | 20 June 2016 | $ 1,445.00
€ 1,300.50 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
2 GHz
2,000 MHz |
3.2 GHz
3,200 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2667 v4 | 20 June 2016 | $ 2,057.00
€ 1,851.30 |
2 | 8 | 16 | 25 MiB
25,600 KiB |
3.2 GHz
3,200 MHz |
3.6 GHz
3,600 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2670 v4 | 20 June 2016 | 2 | 14 | 28 | 35 MiB
35,840 KiB |
3.1 GHz
3,100 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | ||
E5-2673 v4 | 20 June 2016 | 2 | 20 | 40 | 50 MiB
51,200 KiB |
2.3 GHz
2,300 MHz |
3.6 GHz
3,600 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | |
E5-2679 v4 | 20 June 2016 | 2 | 20 | 40 | 50 MiB
51,200 KiB |
2.5 GHz
2,500 MHz |
3.3 GHz
3,300 MHz |
200 W
200,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | |
E5-2680 v4 | 20 June 2016 | $ 1,745.00
€ 1,570.50 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
2.4 GHz
2,400 MHz |
3.3 GHz
3,300 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2682 v4 | 20 June 2016 | 2 | 16 | 32 | 40 MiB
40,960 KiB |
2.5 GHz
2,500 MHz |
3 GHz
3,000 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | |
E5-2683 v4 | 20 June 2016 | $ 1,846.00
€ 1,661.40 |
2 | 16 | 32 | 40 MiB
40,960 KiB |
2.1 GHz
2,100 MHz |
3 GHz
3,000 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2686 v4 | 20 June 2016 | 2 | 18 | 36 | 45 MiB
46,080 KiB |
2.3 GHz
2,300 MHz |
3 GHz
3,000 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | |
E5-2687W v4 | 20 June 2016 | $ 2,141.00
€ 1,926.90 |
2 | 12 | 24 | 30 MiB
30,720 KiB |
3 GHz
3,000 MHz |
3.5 GHz
3,500 MHz |
160 W
160,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2689 v4 | 20 June 2016 | $ 2,723.00
€ 2,450.70 |
2 | 10 | 20 | 25 MiB
25,600 KiB |
3.1 GHz
3,100 MHz |
3.8 GHz
3,800 MHz |
165 W
165,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2689A v4 | 20 June 2016 | 2 | 8 | 16 | 20 MiB
20,480 KiB |
3.4 GHz
3,400 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | ||
E5-2690 v4 | 20 June 2016 | $ 2,090.00
€ 1,881.00 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
2.6 GHz
2,600 MHz |
3.5 GHz
3,500 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2695 v4 | 20 June 2016 | $ 2,424.00
€ 2,181.60 |
2 | 18 | 36 | 45 MiB
46,080 KiB |
2.1 GHz
2,100 MHz |
3.3 GHz
3,300 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2696 v4 | 20 June 2016 | 2 | 22 | 44 | 55 MiB
56,320 KiB |
2.2 GHz
2,200 MHz |
3.7 GHz
3,700 MHz |
150 W
150,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | |
E5-2697 v4 | 20 June 2016 | $ 2,702.00
€ 2,431.80 |
2 | 18 | 36 | 45 MiB
46,080 KiB |
2.3 GHz
2,300 MHz |
3. 6 GHz
3,600 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2697A v4 | 20 June 2016 | $ 2,891.00
€ 2,601.90 |
2 | 16 | 32 | 40 MiB
40,960 KiB |
2.6 GHz
2,600 MHz |
3.6 GHz
3,600 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2698 v4 | 20 June 2016 | $ 3,226.00
€ 2,903.40 |
2 | 20 | 40 | 50 MiB
51,200 KiB |
2.2 GHz
2,200 MHz |
3.6 GHz
3,600 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2699 v4 | 20 June 2016 | $ 4,115.00
€ 3,703.50 |
2 | 22 | 44 | 55 MiB
56,320 KiB |
2.2 GHz
2,200 MHz |
3.6 GHz
3,600 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2699A v4 | 25 October 2016 | $ 4,938. 00
€ 4,444.20 |
2 | 22 | 44 | 55 MiB
56,320 KiB |
2.4 GHz
2,400 MHz |
3.6 GHz
3,600 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2699R v4 | 25 October 2016 | $ 4,560.00
€ 4,104.00 |
2 | 22 | 44 | 55 MiB
56,320 KiB |
2.2 GHz
2,200 MHz |
3.6 GHz
3,600 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
ZZZZZ1S Environments | ||||||||||||||
E5-1603 v4 | 20 June 2016 | 1 | 4 | 4 | 10 MiB
10,240 KiB |
2.8 GHz
2,800 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✘ | ✔ | ✘ | ✘ | ||
E5-1607 v4 | 20 June 2016 | 1 | 4 | 4 | 10 MiB
10,240 KiB |
3.1 GHz
3,100 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✘ | ✔ | ✘ | ✘ | ||
E5-1620 v4 | 20 June 2016 | $ 294. 00
€ 264.60 |
1 | 4 | 8 | 10 MiB
10,240 KiB |
3.5 GHz
3,500 MHz |
3.8 GHz
3,800 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-1630 v4 | 20 June 2016 | $ 406.00
€ 365.40 |
1 | 4 | 8 | 10 MiB
10,240 KiB |
3.7 GHz
3,700 MHz |
4 GHz
4,000 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-1650 v4 | 20 June 2016 | $ 617. 00
€ 555.30 |
1 | 6 | 12 | 15 MiB
15,360 KiB |
3.6 GHz
3,600 MHz |
4 GHz
4,000 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-1660 v4 | 20 June 2016 | $ 1,113.00
€ 1,001.70 |
1 | 8 | 16 | 20 MiB
20,480 KiB |
3.2 GHz
3,200 MHz |
3.8 GHz
3,800 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-1680 v4 | 20 June 2016 | $ 1,723. 00
€ 1,550.70 |
1 | 8 | 16 | 20 MiB
20,480 KiB |
3.4 GHz
3,400 MHz |
4 GHz
4,000 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
Count: 54 |
Haswell EP-based Xeon E5 Models | ||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Main processor | ||||||||||||||
Model | Launched | Release Price | Sockets | Cores | Threads | L3$ | Freq | Turbo | TDP | Max Mem | HT | vPro | TBT 2. 0 | TBMT 3.0 |
ZZZZZ4S Environments | ||||||||||||||
ZZZZZ2S Environments | ||||||||||||||
E5-2670 v3 | 8 September 2014 | $ 1,589.00
€ 1,430.10 |
2 | 12 | 24 | 30 MiB
30,720 KiB |
2.3 GHz
2,300 MHz |
3.1 GHz
3,100 MHz |
120 W
120,000 mW |
804,864 MiB
824,180,736 KiB |
✔ | ✔ | ✔ | ✘ |
ZZZZZ1S Environments | ||||||||||||||
Count: 1 | ||||||||||||||
Broadwell EP-based Xeon E5 Models | ||||||||||||||
Main processor | ||||||||||||||
Model | Launched | Release Price | Sockets | Cores | Threads | L3$ | Freq | Turbo | TDP | Max Mem | HT | vPro | TBT 2.0 | TBMT 3.0 |
ZZZZZ4S Environments | ||||||||||||||
E5-4610 v4 | 20 June 2016 | $ 1,219.00
€ 1,097.10 |
4 | 10 | 20 | 25 MiB
25,600 KiB |
1.8 GHz
1,800 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✘ | ✘ | |
E5-4620 v4 | 20 June 2016 | $ 1,668.00
€ 1,501.20 |
4 | 10 | 20 | 25 MiB
25,600 KiB |
2.1 GHz
2,100 MHz |
2.6 GHz
2,600 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4627 v4 | 20 June 2016 | $ 2,225.00
€ 2,002.50 |
4 | 10 | 10 | 25 MiB
25,600 KiB |
2.6 GHz
2,600 MHz |
3.2 GHz
3,200 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✘ | ✘ | ✔ | ✘ |
E5-4628L v4 | 20 June 2016 | $ 2,535.00
€ 2,281.50 |
4 | 14 | 28 | 35 MiB
35,840 KiB |
1.8 GHz
1,800 MHz |
2.2 GHz
2,200 MHz |
75 W
75,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4640 v4 | 20 June 2016 | $ 2,837. 00
€ 2,553.30 |
4 | 12 | 24 | 30 MiB
30,720 KiB |
2.1 GHz
2,100 MHz |
2.6 GHz
2,600 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4650 v4 | 20 June 2016 | $ 3,838.00
€ 3,454.20 |
4 | 14 | 28 | 35 MiB
35,840 KiB |
2.2 GHz
2,200 MHz |
2.8 GHz
2,800 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4655 v4 | 20 June 2016 | $ 4,616.00
€ 4,154.40 |
4 | 8 | 16 | 30 MiB
30,720 KiB |
2.5 GHz
2,500 MHz |
3.2 GHz
3,200 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4660 v4 | 20 June 2016 | $ 4,727.00
€ 4,254.30 |
4 | 16 | 32 | 40 MiB
40,960 KiB |
2.2 GHz
2,200 MHz |
3 GHz
3,000 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4667 v4 | 20 June 2016 | $ 5,729.00
€ 5,156.10 |
4 | 18 | 36 | 45 MiB
46,080 KiB |
2.2 GHz
2,200 MHz |
3 GHz
3,000 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
E5-4669 v4 | 20 June 2016 | $ 7,007.00
€ 6,306.30 |
4 | 22 | 44 | 55 MiB
56,320 KiB |
2. 2 GHz
2,200 MHz |
3 GHz
3,000 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✘ | ✔ | ✘ |
ZZZZZ2S Environments | ||||||||||||||
E5-2603 v4 | 20 June 2016 | $ 213.00
€ 191.70 |
2 | 6 | 6 | 15 MiB
15,360 KiB |
1.7 GHz
1,700 MHz |
85 W
85,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✘ | ✔ | ✘ | ✘ | |
E5-2608L v4 | 20 June 2016 | $ 363.00
€ 326. 70 |
2 | 8 | 16 | 20 MiB
20,480 KiB |
1.6 GHz
1,600 MHz |
1.7 GHz
1,700 MHz |
50 W
50,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2609 v4 | 20 June 2016 | $ 306.00
€ 275.40 |
2 | 8 | 8 | 20 MiB
20,480 KiB |
1.7 GHz
1,700 MHz |
85 W
85,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✘ | ✔ | ✘ | ✘ | |
E5-2618L v4 | 20 June 2016 | $ 779. 00
€ 701.10 |
2 | 10 | 20 | 25 MiB
25,600 KiB |
2.2 GHz
2,200 MHz |
3.2 GHz
3,200 MHz |
75 W
75,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2620 v4 | 20 June 2016 | $ 417.00
€ 375.30 |
2 | 8 | 16 | 20 MiB
20,480 KiB |
2.1 GHz
2,100 MHz |
3 GHz
3,000 MHz |
85 W
85,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2623 v4 | 20 June 2016 | $ 444. 00
€ 399.60 |
2 | 4 | 8 | 10 MiB
10,240 KiB |
2.6 GHz
2,600 MHz |
3.2 GHz
3,200 MHz |
85 W
85,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2628L v4 | 20 June 2016 | $ 1,364.00
€ 1,227.60 |
2 | 12 | 24 | 30 MiB
30,720 KiB |
1.9 GHz
1,900 MHz |
2.4 GHz
2,400 MHz |
75 W
75,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2630 v4 | 20 June 2016 | $ 667.00
€ 600.30 |
2 | 10 | 20 | 25 MiB
25,600 KiB |
2.2 GHz
2,200 MHz |
3.1 GHz
3,100 MHz |
85 W
85,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2630L v4 | 20 June 2016 | $ 612.00
€ 550.80 |
2 | 10 | 20 | 25 MiB
25,600 KiB |
1.8 GHz
1,800 MHz |
2.9 GHz
2,900 MHz |
55 W
55,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2637 v4 | 20 June 2016 | $ 996.00
€ 896.40 |
2 | 4 | 8 | 10 MiB
10,240 KiB |
3.5 GHz
3,500 MHz |
3.7 GHz
3,700 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2640 v4 | 20 June 2016 | $ 939.00
€ 845.10 |
2 | 10 | 20 | 25 MiB
25,600 KiB |
2. 4 GHz
2,400 MHz |
3.4 GHz
3,400 MHz |
90 W
90,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2643 v4 | 20 June 2016 | $ 1,552.00
€ 1,396.80 |
2 | 6 | 12 | 20 MiB
20,480 KiB |
3.4 GHz
3,400 MHz |
3.7 GHz
3,700 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2648L v4 | 20 June 2016 | $ 1,544.00
€ 1,389.60 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
1.8 GHz
1,800 MHz |
2.5 GHz
2,500 MHz |
75 W
75,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2650 v4 | 20 June 2016 | $ 1,166.00
€ 1,049.40 |
2 | 12 | 24 | 30 MiB
30,720 KiB |
2.2 GHz
2,200 MHz |
2.9 GHz
2,900 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2650L v4 | 20 June 2016 | $ 1,329. 00
€ 1,196.10 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
1.7 GHz
1,700 MHz |
2.5 GHz
2,500 MHz |
65 W
65,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2658 v4 | 20 June 2016 | $ 1,832.00
€ 1,648.80 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
2.3 GHz
2,300 MHz |
2.8 GHz
2,800 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2660 v4 | 20 June 2016 | $ 1,445.00
€ 1,300.50 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
2 GHz
2,000 MHz |
3.2 GHz
3,200 MHz |
105 W
105,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2667 v4 | 20 June 2016 | $ 2,057.00
€ 1,851.30 |
2 | 8 | 16 | 25 MiB
25,600 KiB |
3.2 GHz
3,200 MHz |
3.6 GHz
3,600 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2670 v4 | 20 June 2016 | 2 | 14 | 28 | 35 MiB
35,840 KiB |
3.1 GHz
3,100 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | ||
E5-2673 v4 | 20 June 2016 | 2 | 20 | 40 | 50 MiB
51,200 KiB |
2.3 GHz
2,300 MHz |
3.6 GHz
3,600 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | |
E5-2679 v4 | 20 June 2016 | 2 | 20 | 40 | 50 MiB
51,200 KiB |
2.5 GHz
2,500 MHz |
3.3 GHz
3,300 MHz |
200 W
200,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | |
E5-2680 v4 | 20 June 2016 | $ 1,745.00
€ 1,570.50 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
2.4 GHz
2,400 MHz |
3.3 GHz
3,300 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2682 v4 | 20 June 2016 | 2 | 16 | 32 | 40 MiB
40,960 KiB |
2.5 GHz
2,500 MHz |
3 GHz
3,000 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | |
E5-2683 v4 | 20 June 2016 | $ 1,846.00
€ 1,661.40 |
2 | 16 | 32 | 40 MiB
40,960 KiB |
2.1 GHz
2,100 MHz |
3 GHz
3,000 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2686 v4 | 20 June 2016 | 2 | 18 | 36 | 45 MiB
46,080 KiB |
2.3 GHz
2,300 MHz |
3 GHz
3,000 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | |
E5-2687W v4 | 20 June 2016 | $ 2,141.00
€ 1,926.90 |
2 | 12 | 24 | 30 MiB
30,720 KiB |
3 GHz
3,000 MHz |
3.5 GHz
3,500 MHz |
160 W
160,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2689 v4 | 20 June 2016 | $ 2,723.00
€ 2,450.70 |
2 | 10 | 20 | 25 MiB
25,600 KiB |
3.1 GHz
3,100 MHz |
3.8 GHz
3,800 MHz |
165 W
165,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2689A v4 | 20 June 2016 | 2 | 8 | 16 | 20 MiB
20,480 KiB |
3.4 GHz
3,400 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | ||
E5-2690 v4 | 20 June 2016 | $ 2,090.00
€ 1,881.00 |
2 | 14 | 28 | 35 MiB
35,840 KiB |
2.6 GHz
2,600 MHz |
3.5 GHz
3,500 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2695 v4 | 20 June 2016 | $ 2,424.00
€ 2,181.60 |
2 | 18 | 36 | 45 MiB
46,080 KiB |
2.1 GHz
2,100 MHz |
3.3 GHz
3,300 MHz |
120 W
120,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2696 v4 | 20 June 2016 | 2 | 22 | 44 | 55 MiB
56,320 KiB |
2.2 GHz
2,200 MHz |
3.7 GHz
3,700 MHz |
150 W
150,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ | |
E5-2697 v4 | 20 June 2016 | $ 2,702.00
€ 2,431.80 |
2 | 18 | 36 | 45 MiB
46,080 KiB |
2.3 GHz
2,300 MHz |
3. 6 GHz
3,600 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2697A v4 | 20 June 2016 | $ 2,891.00
€ 2,601.90 |
2 | 16 | 32 | 40 MiB
40,960 KiB |
2.6 GHz
2,600 MHz |
3.6 GHz
3,600 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2698 v4 | 20 June 2016 | $ 3,226.00
€ 2,903.40 |
2 | 20 | 40 | 50 MiB
51,200 KiB |
2.2 GHz
2,200 MHz |
3.6 GHz
3,600 MHz |
135 W
135,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2699 v4 | 20 June 2016 | $ 4,115.00
€ 3,703.50 |
2 | 22 | 44 | 55 MiB
56,320 KiB |
2.2 GHz
2,200 MHz |
3.6 GHz
3,600 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2699A v4 | 25 October 2016 | $ 4,938. 00
€ 4,444.20 |
2 | 22 | 44 | 55 MiB
56,320 KiB |
2.4 GHz
2,400 MHz |
3.6 GHz
3,600 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-2699R v4 | 25 October 2016 | $ 4,560.00
€ 4,104.00 |
2 | 22 | 44 | 55 MiB
56,320 KiB |
2.2 GHz
2,200 MHz |
3.6 GHz
3,600 MHz |
145 W
145,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
ZZZZZ1S Environments | ||||||||||||||
E5-1603 v4 | 20 June 2016 | 1 | 4 | 4 | 10 MiB
10,240 KiB |
2.8 GHz
2,800 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✘ | ✔ | ✘ | ✘ | ||
E5-1607 v4 | 20 June 2016 | 1 | 4 | 4 | 10 MiB
10,240 KiB |
3.1 GHz
3,100 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✘ | ✔ | ✘ | ✘ | ||
E5-1620 v4 | 20 June 2016 | $ 294. 00
€ 264.60 |
1 | 4 | 8 | 10 MiB
10,240 KiB |
3.5 GHz
3,500 MHz |
3.8 GHz
3,800 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-1630 v4 | 20 June 2016 | $ 406.00
€ 365.40 |
1 | 4 | 8 | 10 MiB
10,240 KiB |
3.7 GHz
3,700 MHz |
4 GHz
4,000 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-1650 v4 | 20 June 2016 | $ 617. 00
€ 555.30 |
1 | 6 | 12 | 15 MiB
15,360 KiB |
3.6 GHz
3,600 MHz |
4 GHz
4,000 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-1660 v4 | 20 June 2016 | $ 1,113.00
€ 1,001.70 |
1 | 8 | 16 | 20 MiB
20,480 KiB |
3.2 GHz
3,200 MHz |
3.8 GHz
3,800 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
E5-1680 v4 | 20 June 2016 | $ 1,723. 00
€ 1,550.70 |
1 | 8 | 16 | 20 MiB
20,480 KiB |
3.4 GHz
3,400 MHz |
4 GHz
4,000 MHz |
140 W
140,000 mW |
1,572,864 MiB
1,610,612,736 KiB |
✔ | ✔ | ✔ | ✘ |
Count: 54 |
Intel Xeon Processor E5 2600 Series
Overview:
The new Intel® Xeon® processor E5-2600 v3 family product helps IT address the growing demands
placed on infrastructure, from supporting business growth to enabling new services faster, delivering
new applications in the enterprise, technical computing, communications, storage, and cloud. This new
generation of processors enables powerful, agile data centers by supporting a Software-Defined
Infrastructure (SDI) to address the imminent need of greater flexibility with higher levels of automation
and orchestration. In addition, the Intel Xeon Processor E5-2600 v3 product family delivers significant
benefits in performance, power efficiency, virtualization, and security. Combining these benefits with
a low total cost of ownership and Intel’s acclaimed product quality, the Intel Xeon Processor E5-2600
v3 product family is a compelling solution for any organization.
Versatile Performance with Improvements up to 2.2X
The Intel Xeon Processor E5-2600 v3 product family adds 50
percent more cores and cache3 over the previous generation
and includes numerous other hardware enhancements, such
as Intel® Advanced Vector Extensions 2 (Intel® AVX2) and
Intel® Quick Path Interconnect link (QPI). These innovations
deliver up to 2.2X the performance over the previousgeneration
to significantly boost output across a broad set
of workloads. The Intel Xeon Processor E5-2600 v3 product
family also delivers an increase in virtualization density of up
to 1. 6X compared to the previous generation,4 building on an
ever more important capability in the data center.
- Higher performance for diverse workloads – With up to
18 cores per socket, 45 MB of last-level cache (LLC), and
next generation DDR4 memory support, the Intel Xeon
Processor E5-2600 v3 product family delivers significant
performance improvements in workloads across all
industries, from small businesses to large corporations
in enterprise and technical computing, communications,
storage, and private clouds. - Up to 1.9X higher performance gains5 for enterprise
workloads with Intel® AVX2 – Intel AVX2 with new Fused
Multiply-Add (FMA) instructions in Intel Xeon Processor
E5-2600 v3 product family doubles the floating point
operations (Flops) from first generation Intel AVX, and
doubles the width of vector integer instructions to
256 bits, expanding the benefits of Intel AVX2 into
enterprise computing. - Hardware-accelerated nested virtualization – Intel®
Virtual Machine Control Structure (Intel® VMCS Shadowing)
extends root virtual machine monitor (VMM)-like privileges
to a guest VMM, enabling legacy OS, applications, security
software, and other code not supported on the platform
root VMM to be run on the system - Per-core P States – New per-core P states (PCPS)
dynamically adapt and improve power for each core,
resulting in optimized workload processing.
Intel® Xeon® Processor E5 v3 Product Family Overview
High Performance for the Broadest Range of Applications
and Environments
Advanced multi-core, multi-threaded processing
- Up to 18 cores and 36 threads per socket
Larger cache and faster memory
- Up to 45 MB of LLC for fast access to frequently used data
- Up to 24 DIMMs per two-socket server to support multiple
data-hungry VMs - Faster maximum memory speeds than the previous
generation (2133 MHz versus 1866 MHz)
Higher performance for diverse workloads
- Intel® Turbo Boost Technology10 takes advantage of
power and thermal headroom to increase processor
frequencies for diverse workloads
Higher performance for technical computing applications
- Intel AVX2 accelerates floating point and integer
computations with support for 256-bit vectors - Provides up to 1. 9X more peak floating point operations11
than previous generation
Industry-leading I/O performance
- Intel Integrated I/O provides up to 80 PCIe* lanes per twosocket
server, and supports the PCIe 3.0 specification with
atomic operations support for improved peer-to-peer
(P2P) bandwidth - The Non-Volatile Memory Express* (NVMe*) specification
that is supported by the Intel® Solid-State Drive Data Center
Family for PCIe overcomes SAS and SATA SSD performance
limitations through an optimized register interface, command
set, and feature set for PCI Express (PCIe*)-based
Solid-State Drives (SSDs).
Integrated storage features
- Supports key storage processor features, including x16
non-transparent bridging (vs. x8 NTB), to increase scalability
and accelerated RAID for implementing RAID 5 and 6 without
a custom ASIC
Strong, fast data encryption
Intel Data Protection Technology with:
- Intel® Secure Key provides high-quality security keys
- AES-NI enables encryption to be implemented pervasively
without sacrificing application response times - Intel AVX2 instructions deliver great performance of
compute-intensive cryptographic algorithms and efficiency
in large integer arithmetic operations, such as the Secure
Hash Algorithm (SHA)
An excellent foundation for secure multi-tenancy
Intel® Platform Protection Technology with:
- Trusted Execution Technology enables IT to establish trusted
pools of virtualized resources for stronger security and
compliance in multi-tenant virtual and cloud environments - OS Guard protects against escalation of privilege attacks that
attempt to gain control of the platform or execute malware
Industry-leading energy-efficiency
- Intel 22 nm, 3-D tri-gate transistors cut power consumption
by half, versus the prior manufacturing process - Intel® Intelligent Power technology dynamically manages
CPU and memory energy states to minimize power without
slowing performance - Per-core P states dynamically and independently
regulate power in each core, resulting in energy
efficient processing
Comprehensive monitoring and control
- Intel Node Manager lets IT monitor server power, thermals,
and utilization, and set power limits - Intel® Data Center Manager: Energy Director lets IT dynamically
optimize energy consumption at every level, from
individual servers, racks, and rows to entire data centers
Features:
Foundation for Trust and Security
Data protection and data center security is critical to all
organizations. Intel’s hardware-enhanced security technologies
on the Intel Xeon Processor E5-2600 v3 product family
better protect data and platforms through workload isolation,
security policy enforcement, and faster data encryption.
- Up to 2X faster encryption and decryption – Intel® Data
Protection Technology with Intel® Advanced Encryption
Standard New Instructions (Intel® AES-NI) accelerates data
encryption and decryption up to 2X faster than previousgeneration
Intel Xeon Processor E5 family. With many workloads,
Intel AES-NI encryption and decryption is practically
transparent to system resources. Combined with Intel
Data Protection technology with Intel® Secure Key random
number generation, Intel Xeon Processor E5 v3 family
provides even stronger data protection. - Strong protection against platform attacks – Intel® Platform
Protection Technology with Intel® OS Guard and BIOS
Guard traps external calls trying to hijack System Management
Mode (SMM) code in the OS, and provides workstation
BIOS protection during FLASH updates via protected
agent authentication. - Intel® Platform Protection Technology – with Intel®Trusted
Execution Technology (Intel® TXT) helps protect platform
firmware and the OS kernel from pre-boot attacks. TXT
now supports Trusted Platform Module 2.0 (TPM 2.0)
with stronger cryptographic capabilities.
Innovation that Streamlines the Data Center
With the growth of private and hybrid clouds in the enterprise
and with increasing demand for services, IT seeks higher
efficiencies in orchestration, data center management, and
virtualization on a path toward a Software-Defined Infrastructure
(SDI). The Intel Xeon Processor E5-2600 v3 family
brings several innovations, such as Intel® Node Manager 3.0
to help IT deliver greater levels of efficiency, while responding
faster to business needs. Other key innovations that will
have significant impact on streamlining data centers and
extending efficiency and performance include DDR4 and
Intel® Ethernet Controller XL710 Series.
- Up to 1.4X higher memory bandwidth9 – DDR4 nextgeneration
memory technology improves platform performance
on memory intensive workloads with up to 1.4X
higher bandwidth versus previous-generation platforms.
Adopting DDR4 enables solutions to meet data center
energy efficiency requirements. - Enhanced data center orchestration and platform
telemetry – Intel Node Manager 3.0 can provide real-time
telemetry data on server power, thermal, and utilization. IT may utilize this data to implement policies that can help
improve data center efficiency and power utilization, which
are key components of orchestration and a highly efficient
data center - Infrastructure utilization – Cache monitoring allows realtime,
high-confidence measurements of LLC usage, providing
control of workload placement and load balancing across
shared infrastructure in the virtualized environment. - Low I/O latency – Intel® Data Directed I/O enhancements
allow targeting the LLC for I/O traffic and controlling the
LLC way assignment to specific cores, without hitting the
memory first. These result in high LLC performance and
low I/O latency.
Data Center Extended Ingredients
With increasing demands on IT to support a broader range of
workloads and address emerging constraints in the data center,
Intel continues to develop products that focus on providing
greater performance and flexibility in the infrastructure.
These data center ingredients include the following:
- Intel® Xeon Phi™ Coprocessor – Based on Intel® Many
Integrated Core (Intel® MIC) architecture, the Intel Xeon
Phi coprocessor delivers leading performance for highly
parallel workloads. - The Intel® Ethernet Controller XL710 Series – Delivers
proven 10 and 40 Gigabit Ethernet connectivity for the platform,
extending Intel® Virtualization technologies beyond
server virtualization to network virtualization. - Intel® Solid-State Drive Data Center Family for PCIe* –
Built on the NVMe* specification, the comprehensive product
family of 2.5-inch and Add-In-Card form-factors delivers
breakthrough performance, optimized for real-world applications. - Storage Related Software – Intel® Cache Acceleration
Software (Intel® CAS) is server software that caches the
most active data on SSDs, providing application acceleration
at low cost. Intel® Rapid Storage Technology Enterprise
(Intel® RSTe) is software that provides easy-to-use, enterprise-class
data protection. - Intel® Communication Chipset Series 8900 – Highlights
Intel® QuickAssist Technology and delivers hardware, encryption,
compression, and acceleration for networking and
storage workloads. - Intel Data Center Software – Intel Data Center Manager
(Intel® DCM) and other Intel software give IT a broad set of
data center tools to help stay competitive and take advantage
of Intel hardware.
Specifications:
Intel E5 Xeon 2600 Specifications | |||
---|---|---|---|
CPU Frequency GHz | 2.3 | 2.3 | 2.6 |
Intel Turbo Boost 2.0 Technology | * | ||
Intel HT Technology | * | ||
LLC Cache (MB) | 45 | 40 | 35 |
# of Cores | 18 | 16 | 14 |
Power (W) | 145 | 135 | 145 |
Intel QPI Link Speed GT/s | 9.6 | ||
DDR4 Memory | 2133 |
Documentation:
Download the Intel Xeon E5 2600 v3 Family Product Brief (PDF).
Detailed Specifications of the Intel Xeon E5-2600v4 «Broadwell-EP» Processors
Articles > Detailed Specifications of the Intel Xeon E5-2600v4 “Broadwell-EP” Processors
This article provides in-depth discussion and analysis of the 14nm Xeon E5-2600v4 series processors (formerly codenamed “Broadwell-EP”). “Broadwell” processors replace the previous 22nm “Haswell” microarchitecture and are available for sale as of March 31, 2016. For an introduction, read our blog post Intel Xeon E5-2600 v4 “Broadwell” Processor Review Note: these have since been superceded by the Intel Xeon Processor Scalable Family CPUs.
Important changes available in E5-2600v4 “Broadwell-EP” include:
- Up to 22 processor cores per socket (with options for 4-, 6-, 8-, 10-, 12-, 14-, 16-, 18-, and 20-cores)
- Support for DDR4 memory speeds up to 2400MHz
- Floating Point Instruction performance improvements:
- Faster floating point multiplier completes operations in 3 cycles (down from 5 cycles)
- 1024 Radix divider for reduced latency
- Split Scalar divides for increased parallelism/bandwidth
- Faster vector Gather
- As introduced with Haswell, Broadwell continues to support AVX2 and FMA3 instructions for significant speedups of floating-point multiplication and addition operations
- Extract more parallelism in scheduling micro-operations:
- Reduced instruction latencies on ADC, CMOV and PCLMULQDQ
- Larger out-of-order scheduler, with 64 entries (up from 60 entries)
- Improved address prediction for branches and returns, with an expanded 10-way Branch Prediction Unit Target Array (up from 8-way)
- Improved performance on large data sets:
- Larger L2 Translation Lookaside Buffer (TLB), with 1. 5k entries (up from 1K entries)
- A new L2 TLB for 1GB pages (with 16 entries)
- Addition of a second TLB page miss handler for parallel page walks
With a product this complex, it’s very difficult to cover every aspect of the design. Here, we concentrate primarily on the performance of the processors for HPC applications.
Exceptional Computational Performance
The Xeon E5-2600v4 processors provide the highest performance available to date in a socketed CPU. Many of the higher-end models provide well over 500 GFLOPS (more than half a TFLOPS). Much of this performance is made possible through the use of AVX2 with FMA3 instructions. The plot below compares the peak performance of these CPUs with and without FMA instructions:
The colored bars indicate performance using only AVX instructions; the grey bars indicate theoretical peak performance when using AVX with FMA. Note that only a small set of codes will be capable of issuing almost exclusively FMA instructions (e. g., LINPACK). Most applications will issue a variety of instructions, which will result in lower than peak FLOPS. Expect the achieved performance for well-parallelized & optimized applications to fall between the grey and colored bars.
Intel Xeon E5-2600v4 Series Specifications
The tabs below compare the features and specifications of the new model line. Intel has divided the CPUs into several groups:
- Standard: cost-effective CPUs with moderate performance
- Advanced: CPUs offering the highest performance for most applications
- High Core Count: ideal for highly multi-threaded applications; CPUs providing the highest number of processor cores (sometimes sacrificing clock frequency in favor of core count)
- Frequency Optimized: ideal for non-parallel/single-threaded applications; CPUs with the highest clock speeds (sacrificing number of cores in order to provide the highest frequencies)
Although these processors introduce significant performance increases, technical readers will see that many of the changes are incremental: increased core counts, improved DDR memory speed, etc. However, processor clock speeds/frequencies have not seen significant improvements.
In fact, in some cases the CPU frequency has been lowered from the previous models. Processor frequency and Turbo Boost behavior have changed fairly significantly in the last two CPU releases (“Haswell” and “Broadwell”). Those metrics are discussed in further detail in the next section.
CPU Cores
Memory Speed
L3 Cache
QPI
TDP
Specifications Table
Model | AVX Frequency | AVX Turbo Boost | Core Count | Memory Speed | L3 Cache | QPI Speed | TDP (Watts) |
---|---|---|---|---|---|---|---|
E5-2699v4 | 1.80 GHz | 3.60 GHz | 22 | 2400 Mhz | 55 MB | 9.6 GT/s | 145W |
E5-2698v4 | 20 | 50 MB | 135W | ||||
E5-2697Av4 | 2. 20 GHz | 3.10 GHz | 16 | 40 MB | 145W | ||
E5-2697v4 | 2.00 GHz | 3.60 GHz | 18 | 45 MB | |||
E5-2695v4 | 1.70 GHz | 3.10 GHz | 120W | ||||
E5-2683v4 | 3.00 GHz | 16 | 40 MB | ||||
E5-2690v4 | 2.10 GHz | 3.50 GHz | 14 | 35 MB | 135W | ||
E5-2680v4 | 1.90 GHz | 3.30 GHz | 120W | ||||
E5-2660v4 | 1.70 GHz | 3.20 GHz | 105W | ||||
E5-2650v4 | 1.80 GHz | 2.80 GHz | 12 | 30 MB | |||
E5-2640v4 | 2.00 GHz | 3.40 GHz | 10 | 2133 Mhz | 25 MB | 8 GT/s | 90W |
E5-2630v4 | 1.80 GHz | 3. 10 GHz | 85W | ||||
E5-2620v4 | 3.00 GHz | 8 | 20 MB | ||||
E5-2687Wv4 | 2.60 GHz | 3.40 GHz | 12 | 2400 Mhz | 30 MB | 9.6 GT/s | 160W |
E5-2667v4 | 3.50 GHz | 8 | 25 MB | 135W | |||
E5-2643v4 | 2.80 GHz | 3.60 GHz | 6 | 20 MB | |||
E5-2637v4 | 3.20 GHz | 4 | 15 MB | ||||
E5-2623v4 | 2.20 GHz | 3.20 GHz | 2133 Mhz | 10 MB | 8 GT/s | 85W |
HPC groups do not typically choose Intel’s “Basic” and “Low Power” models – those skus are not shown.
Clock Speeds & Turbo Boost in Xeon E5-2600v4 series “Broadwell” processors
With each new processor line, Intel introduces new architecture optimizations. The design of the “Broadwell” architecture acknowledges that highly-parallel/vectorized applications place the highest load on the processor cores (requiring more power and thus generating more heat). While a CPU core is executing intensive vector tasks (AVX instructions), the clock speed may be reduced to keep the processor within its power limits (TDP).
In effect, this may result in the processor running at a lower frequency than the “base” clock speed advertised for each model. For that reason, each “Broadwell” processor is assigned two “base” frequencies:
- AVX mode: due to the higher power requirements of AVX instructions, clock speeds may be somewhat lower while executing AVX instructions *
- Non-AVX mode: while not executing AVX instructions, the processor will operate at what would traditionally be considered the “stock” frequency
* a CPU core will return to Non-AVX mode 1 millisecond after AVX instructions complete
It is worth noting that these modes are isolated to each core. Within a given CPU, some cores may be operating in AVX mode while others are operating in Non-AVX mode. In the previous generation, AVX instructions running on a single core would cause all cores to run in AVX mode.
AVX and Non-AVX Turbo Boost
Just as in previous architectures, “Broadwell” CPUs include the Turbo Boost feature which allows each processor core to operate well above the “base” clock speed during most operations. The precise clock speed increase depends upon the number & intensity of tasks running on each CPU. However, Turbo Boost speed increases also depend upon the types of instructions (AVX vs. Non-AVX).
The two plots below show that processor clock speeds can be categorized as:
- All cores on the CPU actively running Non-AVX instructions
- All cores on the CPU actively running AVX instructions
- A single active core running Non-AVX instructions (all other cores on the CPU must be idle)
- A single active core running AVX instructions (all other cores on the CPU must be idle)
Clock Speeds for All-Core Operation
Clock Speeds for Single-Core Operation
Note that despite the clear rules stated above, each value is still a range of clock speeds. Because workloads are so diverse, Intel is unable to guarantee one specific clock speed for AVX or Non-AVX instructions. Users are guaranteed that cores will run within a specific range, but each application will have to be benchmarked to determine which frequencies a CPU will operate at.
When examining the differences between AVX and Non-AVX instructions, notice that Non-AVX instructions typically result in no more than a 100MHz to 200MHz increase in the highest clock speed. However, AVX instructions may cause clock speeds to drop by 300MHz to 400MHz if they are particularly intensive.
Recall that AVX2 introduces support for both integer and floating-point instructions, which means any compute-intensive application will be using such instructions (if it has been properly designed and compiled). HPC users should expect their processors to be running in AVX mode most of the time.
Top Clock Speeds for Specific Core Counts
When workloads leave some CPU cores idle, the Xeon E5-2600v4 processors are able to use that headroom to increase the clock speed of the cores which are performing work. Just as with other Turbo Boost scenarios, the precise speed increase will depend upon the CPU model. It will also depend upon how many CPU cores are active.
We advise users to consider how many CPU cores their application is able to saturate. The tabs below detail the peak Turbo Boost frequencies for each CPU model, sorted by the number of active cores:
One to Two cores
3
4
5
6
7
8
9
10
11+ cores
All of the above plots show CPU frequencies for applications utilizing AVX instructions. The colored bars indicate the worst-case scenario – CPUs will run at least this fast. The grey bars indicate the expected clock speeds for most workloads.
Cost-Effectiveness and Power Efficiency of Xeon E5-2600v4 CPUs
The “Broadwell-EP” processors have nearly the same price structure and power requirements as earlier Xeon E5-2600 products, so their cost-effectiveness and power-efficiency should be quite attractive to HPC users. Savvy readers may find the following facts useful:
- HPC applications run best on the Advanced CPU models; they typically do not scale well on the High-Core-Count models.
- The High-Core-Count models are more common in Enterprise and Finance – these carry higher prices than other E5-2600 models.
- The following graphs depict the cost-effectiveness and power-efficiency of only the CPU itself. In many cases, HPC users will find that once they’ve taken the full platform and cluster design into account, the cost-effectiveness of an Advanced CPU may be higher than these plots demonstrate.
Performance vs. Price
Performance vs. Power
Processor Prices
Summary of features in Xeon E5-2600v4 “Broadwell-EP” processors
In addition to the capabilities mentioned at the top of this article, these processors include many of the successful features from earlier Xeon designs. The list below provides a summary of relevant technology features:
- Up to 22 processor cores per socket (with options for 4-, 6-, 8-, 10-, 12-, 14-, 16-, 18-, and 20-cores)
- Support for Quad-channel ECC DDR4 memory speeds up to 2400MHz
- Direct PCI-Express (generation 3. 0) connections between each CPU and peripheral devices such as network adapters, GPUs and coprocessors (40 PCI-E lanes per socket)
- Floating Point Instruction performance improvements:
- Faster floating point multiplier completes operations in 3 cycles (down from 5 cycles)
- 1024 Radix divider for reduced latency
- Split Scalar divides for increased parallelism/bandwidth
- Faster vector Gather
- As introduced with “Haswell”, “Broadwell” continues to supportAdvanced Vector Extensions (AVX 2.0):
- effectively double the throughput of integer and floating-point operations with math units expanded from 128-bits to 256-bits
- introduce Fused Multiply Add (FMA3) instructions which allow a multiply and an accumulate instruction to be completed in a single cycle (effectively doubling the FLOPS/clock from 8 to 16 for each core of a CPU)
- add support for additional instructions, including Gather and vector shift
- F16C 16-bit Floating-Point conversion instructions accelerate data conversion between 16-bit and 32-bit floating point formats
- Turbo Boost technology improves performance under peak loads by increasing processor clock speeds. With version 2.0, (introduced in “Sandy Bridge”) clock speeds are boosted more frequently, to higher speeds and for longer periods of time. With “Haswell” and “Broadwell”, top clock speeds depend upon the type of instructions (AVX vs. Non-AVX).
- Extract more parallelism in scheduling micro-operations:
- Reduced instruction latencies on ADC, CMOV and PCLMULQDQ
- Larger out-of-order scheduler, with 64 entries (up from 60 entries)
- Introduction of the ADCX and ADOX instructions to speed up cryptography
- Improved address prediction for branches and returns, with an expanded 10-way Branch Prediction Unit Target Array (up from 8-way)
- Improved performance on large data sets:
- Larger L2 Translation Lookaside Buffer (TLB), with 1.5k entries (up from 1K entries)
- A new L2 TLB for 1GB pages (with 16 entries)
- Addition of a second TLB page miss handler for parallel page walks
- Dual Quick Path Interconnect (QPI) links between processor sockets improve communication speeds for multi-threaded applications
- Intel Data Direct I/O Technology increases performance and reduces latency by allowing Intel ethernet controllers and adapters to talk directly with the processor cache
- Transactional Synchronization Extensions (TSX) improve the parallelism of multi-threaded applications with synchronization locks
- Introduction of the RDSEED instruction for high-quality, non-deterministic, random seed values
- Advanced Encryption Standard New Instructions (AES-NI) accelerate encryption and decryption for fast, affordable data protection and security
- 32-bit & 64-bit Intel Virtualization Technology (VT/VT-x) for Directed I/O (VT-d) and Connectivity (VT-c) deliver faster performance for core virtualization processes and provide built-in hardware support for I/O virtualization.
- Intel APIC Virtualization (APICv) provides increased virtualization performance
- Hyper-Threading technology allows two threads to “share” a processor core for improved resource usage. Although useful for some workloads, it is not recommended for HPC applications.
- Improved energy efficiency with Per Core P-States and independent uncore frequency control
- Hardware Controlled Power Management for more rapid and efficient decisions on optimal P- and C-State operating point
- DDR4 CRC provides better memory reliability and data integrity by detecting memory bus faults during write
- ECRC for PCI-Express provides optional data integrity protection for systems using PCI-Express switches or bridges
Intel Xeon E5 V3 Processors
Xeon E5-2695v3 2.3GHz 120W 35MB 14 Core LGA2011 v3 Discontinued |
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Xeon E5-2680v3 2. 5GHz 120W 30MB 12 Core LGA2011 v3 Discontinued |
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Xeon E5-2650v3 2.3GHz 105W 25MB 10 Core LGA2011 v3 Discontinued |
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Xeon E5-2630v3 2.4GHz 85W 20MB 8 Core LGA2011 v3 Discontinued |
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More variations available Show |
Replaced by the Intel Xeon E5 V4 Processors
Intel Xeon processor E5 v3 family-based workstations supply a more powerful processor, faster I/O performance, and an enhanced memory for compute-intensive workloads.
The new Intel Xeon processors help IT address the growing demands placed on infrastructure, from supporting business growth to enabling new services faster, delivering new applications in the enterprise, technical computing, communications, storage and cloud. This new generation of processors enables powerful, agile data centers by supporting a Software-Defined Infrastructure (SDI) to address the imminent need of greater flexibility with higher levels of automation and orchestration. In addition, the Intel Xeon Processor E5 v3 product family delivers significant benefits in performance, power efficiency, virtualisation and security. Combining these benefits with a low total cost of ownership and Intel’s acclaimed product quality, the Intel Xeon Processor v3 product family is a compelling solution for any organisation.
Show specifications and reviews for:Xeon E5-2630v3Xeon E5-2650v3Xeon E5-2680v3Xeon E5-2695v3
Specifications | Xeon E5-2630v3 | Xeon E5-2650v3 | Xeon E5-2680v3 | Xeon E5-2695v3 |
---|---|---|---|---|
Clock speed stock / turbo | 2.4 / 3.2 GHz | 2.3 / 3.0 GHz | 2.5 / 3.3 GHz | 2.3 / 3.3 GHz |
Cores / threads | 8/16 | 10/20 | 12/24 | 14/28 |
Intel Smart Cache | 20MB | 25MB | 30MB | 35MB |
Typical Passmark score | 12,669 | 15,660 | 19,468 | 21,123 |
Thermal Design Power (TDP), watts | 85W | 105W | 120W | 120W |
Turbo Boost Technology | 2. 0 | 2.0 | 2.0 | 2.0 |
vPro Technology | Yes | Yes | Yes | Yes |
Hyper-Threading Technology | Yes | Yes | Yes | Yes |
Virtualisation Technology (VT-x) | Yes | Yes | Yes | Yes |
Virtualisation Technology for Directed I/O (VT-d) | Yes | Yes | Yes | Yes |
VT-x with Extended Page Tables (EPT) | Yes | Yes | Yes | Yes |
Idle States | Yes | Yes | Yes | Yes |
Enhanced Intel SpeedStep Technology | Yes | Yes | Yes | Yes |
Intel® Demand Based Switching | Yes | Yes | Yes | Yes |
Thermal Monitoring Technologies | Yes | Yes | Yes | Yes |
Socket type | LGA2011-3 | LGA2011-3 | LGA2011-3 | LGA2011-3 |
Lithography | 22 nm | 22 nm | 22 nm | 22 nm |
Packaging | OEM | OEM | OEM | OEM |
More information | Here | Here | Here | Here |
Warranty | 24 months | 24 months | 24 months | 24 months |
EAN barcode | 5032037065542 | 5032037064798 |
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Specifications | Xeon E5-2630v3 | Xeon E5-2650v3 | Xeon E5-2680v3 | Xeon E5-2695v3 |
---|---|---|---|---|
Clock speed stock / turbo | 2. 4 / 3.2 GHz | 2.3 / 3.0 GHz | 2.5 / 3.3 GHz | 2.3 / 3.3 GHz |
Cores / threads | 8/16 | 10/20 | 12/24 | 14/28 |
Intel Smart Cache | 20MB | 25MB | 30MB | 35MB |
Typical Passmark score | 12,669 | 15,660 | 19,468 | 21,123 |
Thermal Design Power (TDP), watts | 85W | 105W | 120W | |
Turbo Boost Technology | 2.0 | |||
vPro Technology | Yes | |||
Hyper-Threading Technology | Yes | |||
Virtualisation Technology (VT-x) | Yes | |||
Virtualisation Technology for Directed I/O (VT-d) | Yes | |||
VT-x with Extended Page Tables (EPT) | Yes | |||
Idle States | Yes | |||
Enhanced Intel SpeedStep Technology | Yes | |||
Intel® Demand Based Switching | Yes | |||
Thermal Monitoring Technologies | Yes | |||
Socket type | LGA2011-3 | |||
Lithography | 22 nm | |||
Packaging | OEM | |||
More information | Here | Here | Here | Here |
Warranty | 24 months | |||
EAN barcode | 5032037065542 | 5032037064798 |
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See Also
CPUs (Processors)
Product Resources
- Intel website
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Intel Xeon E5 Processor Family (Features and Prices) — FXeon.ru
Fxeon Processors 6 comments
On this page:
1 Xeon E5 family — general information
2 List of all Xeon E5 for LGA 2011-3
3 List of all Xeon E5 for LGA 2011
4 List of all Xeon E5 for LGA 1356
5 Discussion
Xeon E5 — a family of server microprocessors produced from 2011 to 2016 by Intel. Processors of this family can be installed in a multiprocessor board. Processors are distinguished by a large number of cores and a large amount of cache memory. Designed for high-performance gaming systems, workstations and servers.
- For the first time, Xeon E5 processors were released in 2011 under the LGA 2011 (Socket R) microarchitecture «Sandy Bridge EP» and «Ivy Bridge EP», built on 32 nm and 22 nm process technology, respectively, and received marking «Xeon» and «Xeon V2» . A system built on LGA 2011 could include up to 4 processors and have a 4-channel RAM mode.
- In 2012, Xeon E5 began to be produced under the LGA 1356 9 connector0019 (Socket B or «Simplified 2011») in parallel with LGA 2011. The microarchitecture remained the same, with the exception of a pair of new processors labeled «Xeon V3» , built on «Haswell» using the same 22 nm process technology. The configuration on the LGA 1356 could consist of 2 maximum possible processors, and the memory could only work in 3-channel mode.
- Already in 2014, Xeon E5 processors appeared for socket LGA 2011-3 (Socket R3) on the architecture of «Haswell EP» and «Broadwell EP» under the marking «Xeon E5 V3» and «Xeon E5 V4» , built in 22 nm and 14 nm. A working system built on LGA 2011-3 could have up to 4 processors and had support for 4-channel RAM mode. Added support for DDR4 RAM format.
Sockets LGA 2011, LGA 2011-3, LGA 1356 are completely incompatible, so the lists of all Xeon E5 processors were divided into 3 tables according to the processor socket.
Each Xeon E5 family processor has a limit on the maximum number of processors per configuration. This value is easy to recognize by the marking of the processor:
The first number in the model label indicates the maximum number of processors in the system. For example: Xeon E5- 2 682 v4 is 2 processors, Xeon E5- 1 410 is 1 processor, and Xeon E5- 4 640 v3 is 4 processors
3
Name | Price | 0067 | Process | Support RAM |
Code name |
||||
---|---|---|---|---|---|---|---|---|---|
Xeon E5- 2699A V4 |
125_742_ Rhesi | 22 (44) | 2. 4 (3.6) GHz | 145 VT | 14 Nm 9009 24-24 | Broadwell | |||
Xeon E5- 2696 V4 |
462 14 nm | DDR4-2400 | Broadwell | ||||||
Xeon E5- 2699R V4 |
62 753 ₽ | 22 (44) | 2.2 (3.6) GHC | 55 MB | 14 Nm | DDR4-2400 92 Broadwell | |||
Xeon E5- 2699 V4 |
54 968 ₽ | 22 (44) | 2.2 (3.6) GHC | 55 MB | 14 Nm | DDR4-2400 92 Broadwell | |||
Xeon E5- 4669 V4 |
140 959 ₽ | 22 (44) | 2.2 (3) GHC | 55 MB | 135 W | DDR4-24-24-24-24-24-24-24-24-24-24-24-24-24-24-24-24-24IOUS | |||
Xeon E5- 2679 V4 |
58 979 ₽ | 20 (40) | 2.5 (3.3) GHC | 50 MB | 200 W. Broadwell | ||||
Xeon E5- 2673 v4 |
20 242 ₽ | 20 (40) | 2. 3 (3.5) GHz | 50 MB | 135 W | 14 Nm | DDR4-2400 | BRODWELL | |
Xeon E5- 2698 V4 |
24 550 ₽ | 20 (40) | 2.2 (3.6) GHC | 50 MB | W. Broadwell | ||||
XEON E5- 2697 v40094 | 45MB | 145W | 14nm | DDR4-2400 | Broadwell | ||||
Xeon E5- 2699 V3 |
13 093 ₽ | 18 (36) | 2.3 (3.6) GHC | 45 MB | 22 Nm | DDR4-2133 | Haswell | ||
Xeon E5- 2696 V3 |
9 841 ₽ | 18 (36) | 2.3 (3.8) GHz | 45 MB | 145 W. WT | 22 Nm 9 nm | DDR4, DDR3 | Haswell | |
Xeon E5- 2686 V4 |
20 839 ₽ | 18 (36) | 2.3 (3) GGC | 45 MB | 14 Nm | DDR40092 DDR | BREA | ||
Xeon E5- 4667 v4 |
? | 18(36) | 2. 2(3) GHz | 45 MB | 135 W | ||||
XEON E5- 2695 V4 |
19 030 ₽ | 18 (36) | 2.1 (3.3) GHz | 45 MB | 14 Nm | DDR4-2400 | BREADWELL | ||
Xeon E5- 4669 V3 |
212 ₽ | 18 (36) | 2.1 (2.9) GHC | 45 MB | WT | 22 nm | DDR4 | DDR | HASWLL |
Xeon E5- 2686 v3 |
10 344 ₽ | 18(36) | 2(3.5) GHz | 45MB | 120W | 22nm | DDR4-2133, DDR3-1866 |
Haswell | |
Xeon E5- 2698A v3 |
? | 16(32) | 2.8(3.2)GHz | 40MB | 165W | 22nm | DDR4-2133 | Has4 | |
Xeon E5- 2697A v4 |
$2042 145W | 14nm | DDR4-2400 | Broadwell | |||||
Xeon E5- 2682 V4 |
11 323 ₽ | 16 (32) | 2. 5 (3) GHC | 40 MB | 120 W | ||||
Xeon E5- 2698 V3 |
10 189 ₽ | 16 (32) | 2.3 (3.6) GHC | 40 MB | W. | 22 Nm | DDR4-2133 | Haswell | |
Xeon E5- 4660 V4 |
22 176 ₽ | 16 (32) | 2.2 (3) GHC | 40 MB | 120 W | DDR4 | DDR40092 BRODWLL | ||
Xeon E5- 2683 V4 |
6 344 ₽ | 16 (32) | 2.1 (3) GHC | 40 MB | 120 W | 14 Nm | DDR | ||
XEON E5- 4667 v3 |
14 076 ₽ | 16 (32) | 2 (2.9) GHC | 40 MB | 135 W | DDR4 | Haswell | ||
Xeon E5- 2698B V3 |
9 829 ₽ | 16 (32) | 2 GHz | 40 MB | 135 W | DDR4 | HASWEL | ||
Xeon E5- 2675 v3 |
17 300 RUB | 16(32) | 1. 8(2.3) GHz | 40MB | 135W | 22nm | DDR4 | Haswell | |
Xeon E5- 2697 V3 |
950 ₽ | 14 (28) | 2.6 (3.6) GHC | 35 MB | 22 Nm | DDR4-2133 | Haswell | ||
Xeon E5- 2690 V4 |
16 828 ₽ | 14 (28) | 2.6 (3.5) GHC | 35 MB | WT | 14 Nm | DDR4-2400 DDR0094 | Broadwell | |
Xeon E5- 1691 v3 |
? | 14(28) | 2.5(3.3) GHz | 35MB | 135W | 22nm | DDR4-2133 | Has4 | |
Xeon E5- 2680 V4 |
39 872 ₽ | 14 (28) | 2.4 (3.3) GHC | 35 MB | 120 WT | 14 Nm | DDR4-2400 92 Broadwell | ||
Xeon E5- 2658 v4 |
20 288 ₽ | 14 (28) | 2.3 (2.8) GHC | 35 MB | 105 W | DDR4-2400 | BRORADWELL | ||
Xeon E5- 2695 V3 |
7 225 ₽ | 14 (28) | 2. 3 (3.3) GHC | 35 MB | WT | 22 Nm | DDR4-2133 | Haswell | |
Xeon E5- 4650 v4 |
14(28) | 2.2(2.8) GHz | 35MB | 105W | 14nm | DDR4 | Broadwell | ||
Xeon E5- 4660 V3 |
7 854 ₽ | 14 (28) | 2.1 (2.9) GHC | 35 MB | 120 W. | ||||
Xeon E5- 2660 V4 |
7 068 ₽ | 14 (28) | 2 (3.2) GGC | 35 MB | 105 W | 14 Nm | DDR4-24000094 | Broadwell | |
Xeon E5- 2683 V3 |
4 867 ₽ | 14 (28) | 2 (3) GHC | 35 MB | 120 W | 9 | |||
Xeon E5- 2648L V4 |
10 328 ₽ | 14 (28) | 1.8 (2.5) _GCC | 35 MB | 75 W. WT | 14 Nm | DDR4-2400 92 Broadwell | ||
Xeon E5- 4628L v4 |
15 649 ₽ | 14 (28) | 1. 8 (2.2) GHC | 35 MB | 75 W | DDR4 | Broadwell | ||
Xeon E5- 2650L V4 |
807 ₽ | 14 (28) | 1.7 (2.5) GHC | 35 MB | 65 W | 14 Nm | DDR4-2400 900 9 Broadwell | ||
Xeon E5- 2687W v4 |
67,235 RUB0094 | 30MB | 160W | 14nm | DDR4-2400 | Broadwell | |||
Xeon E5- 2690 V3 |
78 ₽ | 12 (24) | 2.6 (3.5) GHC | 30 MB | 135 W | ||||
Xeon E5- 1686 v3 |
? | 12(24) | 2.6(3.3) GHz | 30MB | 135W | 22nm | DDR4-2133 | Haswell | |
Xeon E5- 2678 V3 |
7 807 ₽ | 12 (24) | 2.5 (3.3) GHC | 30 MB | 120 W | 22 nm | DDR-2133, , , , , , DDR3-1866 |
Haswell | |
Xeon E5- 2680 V3 |
6 446 ₽ | 12 (24) | 2. 5 (3.3) GHC | 30 MB | 120 W | 22 nm | DDR4-2133 9. Haswell | ||
Xeon E5- 2673 V3 |
3 774 ₽ | 12 (24) | 2.4 (3.2) GHC | 30 MB | 105 W | 22 Nm | DDR4, DDR4, DDR4, DDR4, DDR4, DDR4, DDR4, DDR4, DDR Haswell | ||
Xeon E5- 2676 V3 |
4 386 ₽ | 12 (24) | 2.4 GHC | 30 MB | 120 W | DDR4, DDR3 | |||
XEON E5- 2670 v3 |
3 793 ₽ | 12(24) | 2.3(3.1) GHz | 30MB | 120W | 22nm | DDR4-2133 | Has4 | Has4 |
Xeon E5- 2669 v3 |
? | 12(24) | 2.3GHz | 30MB | 120W | 22nm | DDR4, DDR3-1804 9009 Has6 | ||
XEON E5- 2650 v4 |
5 $130 | 12(24) | 2.2(2.9) GHz | 30MB0094 | 105W | 14nm | DDR4-2400 | Broadwell | |
Xeon E5- 2658 V3 |
5 347 ₽ | 12 (24) | 2. 2 (2.9) GHC | 30 MB | 105 W | 22 Nm | DDR-2133 9 Haswell | ||
Xeon E5- 2658A V3 |
5 347 ₽ | 12 (24) | 2.2 (2.9) GHC | 30 MB | 105 W | 22 Nm | DDR4-2133 | Haswell | |
Xeon E5- 4640 V4 |
6 526 ₽ | 12 (24) | 2.1 (2.6) GHC | 30 MB | 105 W | DDR40092 BREADELL | |||
Xeon E5- 4650 V3 |
683 ₽ | 12 (24) | 2.1 (2.8) GHC | 30 MB | 105 W | DDR40092 DDR | |||
XEON E5- 4640 v3 |
7 234 ₽ | 12 (24) | 1.9 (2.6) GHC | 30 MB | 105 W | DDR4 | Haswell | ||
Xeon E5- 2628L V4 |
6 518 ₽ | 12 (24) | 1.9 (2.4) GHC | 30 MB | VT | 14 Nm | DDR4-2133 | Broadwell | |
Xeon E5- 2650L v3 |
$3 | 12(24) | 1. 8(2.5) GHz | 30MB | 65W | 22nm | DDR4-2133 | Haswell | |
Xeon E5- 2648L V3 |
20 560 ₽ | 12 (24) | 1.8 (2.5) GHC | 30 MB | VT | 22 Nm | DDR-2133 9 Haswell | ||
XEON E5- 4648 v3 |
? | 12(24) | 1.7(2.2) GHz | 30MB | 105W | 22nm | DDR4 | Haswell | |
Xeon E5- 2685 V3 |
15 570 ₽ | 12 | 2.6 (3.3) GHC | 30 MB | 120 W | ||||
Xeon E5- 2689 V4 |
58 978 ₽ | 10 (20) | 3.1 (3.8) GHC | 25 MB | WT | 14 Nm | DDR4-240094 | Broadwell | |
XEON E5- 2687W V3 |
13 578 ₽ | 10 (20) | 3.1 (3.5) GHz | 25 MB | 22 Nm | DDR4-2133 | HASWELL | ||
Xeon E5- 1681 v3 |
? | 10(20) | 2. 9(3.5)GHz | 25MB | 135W | 22nm | DDR4-2133 | Has4 | |
Xeon E5- 2666 v3 |
2 2.9(3.5) GHz | 25MB | 135W | 22nm | DDR4 | Haswell | |||
Xeon E5- 2660 V3 |
3 380 ₽ | 10 (20) | 2.6 (3.3) GHC | 25 MB | 105 W | 22 Nm | DDR-2133 9 Haswell | ||
Xeon E5- 2640 V4 |
144 ₽ | 10 (20) | 2.4 (3.4) GHC | 25 MB | 90 W | 14 nm 9 nm | DDR4-2133 | Broadwell | |
Xeon E5- 2650 V3 |
2 468 ₽ | 10 (20) | 2.3 (3) GHC | 25 MB | 105 W | ||||
Xeon E5- 2652V3 |
14 831 ₽ | 10 (20) | 2.3 (2.8) GGC | 25 MB | 105 W | 22 nm | DDR-2133 9009 | ||
Xeon E5- 2649 v3 |
? | 10(20) | 2. 3GHz | 25MB | 105W | 22nm | DDR4, DDR3-1806 |
||
Xeon E5- 2618L V4 |
7 926 ₽ | 10 (20) | 2.2 (3.2) GHC | 25 MB | VT | 14 Nm | DDR4-2133 | Broadwell | |
XEON E5- 2630 v4 |
6 173 ₽ | 10(20) | 2.2(3.1) GHz | 25MB | 85W | 14nm | DDR4-2133 | Broadwell | |
Xeon E5- 4620 V4 |
8 257 ₽ | 10 (20) | 2.1 (2.6) GHC | 25 MB | 105 W | DDR4 | BREADELL | ||
XEON E5- 4620 v3 |
2 882 ₽ | 10(20) | 2(2.6) GHz | 25 MB | 22nm | DDR4 | Haswell | ||
Xeon E5- 2628L V3 |
6 482 ₽ | 10 (20) | 2 (2.5) GHC | 25 MB | 75 W | 9009 9009 | |||
Xeon E5- 2630L V4 |
742 ₽ | 10 (20) | 1. 8 (2.9) GHC | 25 MB | 55 W | 14 Nm | DDR-2133 | Broadwell | |
Xeon E5- 4610 V4 |
9 775 ₽ | 10 (20) | 1.8 | 25 MB | 105 W | 14 Nm | DDR4 | BRODWELL | |
Xeon E5- 4610 V3 |
2 311 ₽ | 10 (20) | 1.7 GHz | 25 MB | 105 W | DDR4 | HASWEL 9004 | ||
Xeon E5- 2663 v3 |
60 177 ₽ | 10 | 2.8(3.5) GHz | 25MB | 120W | 22nm | DDR4-2133 | Haswell | |
Xeon E5- 4627 V4 |
6 803 ₽ | 10 | 2.6 (3.2) GHC | 25 MB | 135 W | DDR4 | BRODWLL | ||
XEON E5- 4627 v3 |
$434 | 22 nm | DDR4 | Haswell | |||||
Xeon E5- 1680 V4 |
39 652 ₽ | 8 (16) | 3. 4 (4) GHC | 20 MB | 140 V- | ||||
Xeon E5- 1680 V3 |
15 200 ₽ | 8 (16) | 3.2 (3.8) GHC | 20 MB | 140 V | ||||
Xeon E5- 1660 V4 |
13 958 ₽ | 8 (16) | 3.2 (3.8) GHC | 20 MB | 140 W | 14 Nm | |||
Xeon E5- 2667 V4 |
16 981 ₽ | 8 (16) | 3.2 (3.6) GGC | 25 MB | W. Broadwell | ||||
Xeon E5- 2667 v3 |
6639$ | 8(16) | 3.2(3.6) GHz | 20MB | 135W | 22nm | DDR4-21034 | 4 Haswell | 4 |
Xeon E5- 1660 V3 |
988 ₽ | 8 (16) | 3 (3.5) GHC | 20 MB | 140 V. | ||||
Xeon E5- 2640 v3 |
2 315 RUB | 8(16) | 2. 6(3.4) GHz | 20MB | 90W | 22nm | DDR4-1866 | Haswell | |
Xeon E5- 4655 V4 |
7 535 ₽ | 8 (16) | 2.5 (3.2) GHC | 30 MB | 135 W | DDR40092 BREADELL | |||
Xeon E5- 2622 V3 |
14 957 ₽ | 8 (16) | 2.4 (3.4) GHC | 20 MB | 85 W | 22 Nm | DDR4-1866 | Haswell | |
Xeon E5- 2630 V3 |
1 498 ₽ | 8 (16) | 2.4 (3.2) GHC | 20 MB | 85 W | 22 Nm | DDR4-1866666666666666666666666666 Haswell | ||
Xeon E5- 2629v3 |
9 651 ₽ | 8 (16) | 2.4 GHz | 20 MB | 85 W | DDR4, DDR3-1866 9009 | |||
Xeon E5- 2618L v3 |
7 195 ₽ | 8 (16) | 2.3 (3.4) GHC | 20 MB | 75 W | DDR4-1866 | HASWELL | ||
Xeon E5- 2620 V4 |
17 051 ₽ | 8 (16) | 2. 1 (3) GHC | 20 MB | 85 W | BREA | |||
Xeon E5- 2630L v3 |
2 $100 | 8(16) | 1.8(2.9) GHz | 20MB | 55W | 22nm | DDR4-1866 | Haswell | |
Xeon E5- 2608L V4 |
10 468 ₽ | 8 (16) | 1.6 (1.7) GHC | 20 MB | 50 W | DDR4-18666666666666666666666 | |||
Xeon E5- 2628 V3 |
3 965 ₽ | 8 | 2.5 (3) GHC | 85 W | 22 nm | DDR4-2133 | Haswell | ||
Xeon E5- 2609 V4 |
5 472 ₽ | 8 | 1.7 GHz | 20 MB | 85 W | DDR4-1866 | BRODWLL | ||
Xeon E5- 1650 V4 |
16 034 ₽ | 6 (12) | 3.6 (4) GHC | 15 MB | 140 W | BREADLL | |||
Xeon E5- 1650 V3 |
7 692 ₽ | 6 (12) | 3. 5 (3.8) GHz | 15 MB | 2 22 22 Nm | DDR4-2133 | Haswell | ||
Xeon E5- 2643 V4 |
18 399 ₽ | 6 (12) | 3.4 (3.7) GHC | 20 MB | W. Broadwell | ||||
Xeon E5- 2643 v3 |
6 358 ₽ | 6(12) | 3.4(3.7) GHz | 20MB | 135W | 22nm | DDR4-2133 | Haswell | |
Xeon E5- 4655 V3 |
3 875 ₽ | 6 (12) | 2.9 (3.2) GHC | 30 MB | W. | ||||
Xeon E5- 2620 V3 |
1 019 ₽ | 6 (12) | 2.4 (3.2) GHC | 15 MB | 85 W | 22 nm | DDR4-1866 | Haswell | |
Xeon E5- 2608L V3 |
4 735 ₽ | 6 (12) | 2 GHz | 15 MB | 52 W | DDR4-1866 | 6 HASW | ||
Xeon E5- 2609 V3 |
1 366 ₽ | 6 | 1. 9 GHz | 15 MB | 85 W | DDR4-1600 | HASWEL | ||
XEON E5- 2603 V4 |
3 016 ₽ | 6 | 1.7 GHz | 15 MB | 85 W | DDR4-1866 | BRORADWELL | ||
Xeon E5- 2603 V3 |
1 104 ₽ | 6 | 1.6 GHz | 15 MB | 85 W. | ||||
XEON E5- 1630 v4 |
$1464 | 10MB | 140W | 14nm | DDR4-2400 | Broadwell | |||
Xeon E5- 1630 V3 |
3 203 ₽ | 4 (8) | 3.7 (3.8) GHC | 10 MB | 140 V. | ||||
Xeon E5- 1620 V4 |
12 531 ₽ | 4 (8) | 3.5 (3.8) GHC | 10 MB | 140 W | 14 nm | DDR4-2400 | Broadwell | |
Xeon E5- 2637 V4 |
11 103 ₽ | 4 (8) | 3. 5 (3.7) GHC | 15 MB | 135 W | ||||
Xeon E5- 2637 V3 |
1 686 ₽ | 4 (8) | 3.5 (3.7) GHC | 15 MB | 135 W | DDR-2133 9 Haswell | |||
Xeon E5- 1620 V3 |
1 622 ₽ | 4 (8) | 3.5 (3.6) GHz | 10 MB | 140 W | 22 Nm | DDR4-2133 | HASWell | |
Xeon E5- 2623 V3 |
963 ₽ | 4 (8) | 3 (3.5) GHC | 10 MB | 105 W | ||||
XEON E5- 2623 v40092 2.6(3.2) GHz |
10MB | 85W | 14nm | DDR4-2133 | Broadwell | ||||
Xeon E5- 1607 V4 |
1 269 ₽ | 4 | 3.1 GHz | 10 MB | 140 W | DDR4-2133 | BRORADWLL | ||
Xeon E5- 1607 V3 |
2 696 ₽ | 4 | 3. 1 GHz | 10 MB | 140 W | 22 Nm | DDR4-1866 | Haswell | |
Xeon E5- 1603 V4 |
2 020 ₽ | 2.8 GHz | 10 MB | 140 W | 14 Nm | DDR4-2133 | BRORODWELLELL | ||
Xeon E5- 1603 V3 |
1 408 ₽ | 2.8 GHz | 10 MB | 140 W | 22 Nm | DDR4-1866 | HASWEL |
List of XEON E5 processors for LGA 2011
Name | Price | Nuclei (Streams) |
Frequency (turbo) |
666 666 Technology Technical Code Name |
||||||
---|---|---|---|---|---|---|---|---|---|---|
Xeon E5- 2697 V2 |
6 111 ₽ | 12 (24) | 2.7 (3.5) GHz | 30 MB | 130 WT | 22 nm | DDR3-1866 | Ivy Bridge EP |
||
Xeon E5- 2696 V2 |
5 242 ₽ | 12 (24) | 2. 5 (3.3) GHC | 30 MB | 115 W | 9009 9 Ivy Bridge EP |
||||
Xeon E5- 2695 V2 |
4 856 ₽ | 12 (24) | 2.4 (3.2) GHC | 30 MB | W. | 22 Nm | DDR3-186660094 | Ivy Bridge EP |
||
Xeon E5- 4657L V2 |
761 ₽ | 12 (24) | 2.4 (2.9) GHC | 30 MB | W. Ivy Bridge EP |
|||||
Xeon E5- 2692 V2 |
9 249 ₽ | 12 (24) | 2.2 GHz | 115 W | DDR3-1866 | IVY 9009 Brid | ||||
Xeon E5- 2651 V2 |
1 356 ₽ | 12 (24) | 1.8 GHz | 30 MB | 105 W | 9009 9009 BRIC | ||||
Xeon E5- 2690 V2 |
4 884 ₽ | 10 (20) | 3 (3.6) GHC | 25 MB | 130 W | |||||
Xeon E5- 2680 v2 |
4 519 ₽ | 10 (20) | 2. 8 (3.6) GHC | 25 MB | 115 W | DDR3-1866 | IVY Bridge EP |
|||
Xeon E5- 2670 V2 |
2 053 ₽ | 10 (20) | 2.5 (3.3) GHC | 25 MB | VT | 22 Nm | DDR3-18669 9009 9 Ivy Bridge EP |
|||
Xeon E5- 2658 v2 |
1 414 ₽ | 10(20) | 2.4(3)GHz | 25MB | 95W | 22nm | DDR3-1866 | Ivy Bridge EP |
||
Xeon E5- 4650 V2 |
5 643 ₽ | 10 (20) | 2.4 (2.9) GHC | 25 MB | W | 22 Nm | DDR3-186666666666666666666666666666666666666666 Ivy Bridge EP |
|||
Xeon E5- 2660 v2 |
$18 | 10(20) | 2.2(3) GHz | 25MB | 95W | 22nm | DDR3-1866 | Ivy Bridge EP |
||
Xeon E5- 4640 V2 |
3 572 ₽ | 10 (20) | 2. 2 (2.7) GHC | 20 MB | W | 22 Nm | DDR3-1866 9 Ivy Bridge EP |
|||
Xeon E5- 2648L V2 |
4 939 ₽ | 10 (20) | 1.9 (2.5) GHC | 25 MB | 70 W | 22 nm | DDR3-1866 | Ivy Bridge EP |
||
Xeon E5- 4624L v2 |
? | 10(20) | 1.9(2.5) GHz | 25MB | 70W | 22nm | DDR3-1866 | 90 Bridge 90 Bridge 90 | ||
Xeon E5- 2650L V2 |
1 171 ₽ | 10 (20) | 1.7 (2.1) GHC | 25 MB | 70 W | 22 nm | DDR3-1600 9009 9 Ivy BridgeEP |
|||
Xeon E5- 2687W V2 |
9 172 ₽ | 8 (16) | 3.4 (4) GHC | 25 MB | 150 W | 9009 BridgeEP | ||||
Xeon E5- 2673 V2 |
11_891_ Rhesi | 8 (16) | 3.3 (4) GGC | 25 MB | 110 W | |||||
Xeon E5- 2667 V2 |
4 983 ₽ | 8 (16) | 3. 3 (4) GHz | 25 MB | 130 W | 22 Nm | DDR3-1866 | IVY 9000 Bridge | ||
Xeon E5- 2687W |
3 641 ₽ | 8 (16) | 3.1 (3.8) GHC | 20 MB | 150 W | 32 Nm | DDR3-1600 9009 9 BridgeEP |
|||
Xeon E5- 1680 v2 |
9563 ₽ | 8 (16) | 3 (3.9) GHz | 25 MB | 130 W | 22 Nm | DDR3-1866 | IVY Bridge EP |
||
Xeon E5- 2690 |
1 926 ₽ | 8 (16) | 2.9 (3.8) GHC | 20 MB | 130 W | 32 nm | DDR3-1600 9009 9 BridgeEP |
|||
Xeon E5- 2680 |
1 384 ₽ | 8(16) | 2.7(3.5) GHz | 20MB | 130W | 32nm | DDR3-1600 | Sandy Bridge EP |
||
Xeon E5- 4650 |
3 057 ₽ | 8 (16) | 2. 7 (3.3) GHC | 20 MB | 130 W | 32 nm | ||||
Xeon E5- 2689 |
1 186 RUB | 8(16) | 2.6(3.6) GHz | 20MB | 32 nm | DDR3-1600 | Sandy Bridge EP |
|||
Xeon E5- 2650 V2 |
1 231 ₽ | 8 (16) | 2.6 (3.4) GHC | 20 MB | 95 W | DDR3-18669 9009 9 Ivy Bridge EP |
||||
Xeon E5- 2670 |
1 253 ₽ | 8 (16) | 2.6 (3.3) GHC | 20 MB | 115 W | 32 nm | DDR3-1600 | Sandy Bridge EP |
||
Xeon E5- 4650L |
2 978 ₽ | 8 (16) | 2.6 (3.1) GHC | 20 MB | 115 W | 32 nm | DDR3-1600 9009 9 BridgeEP |
|||
Xeon E5- 4620 V2 |
2 273 ₽ | 8 (16) | 2. 6 GHz | 20 MB | DDR3-1600 | IVY | Brid | |||
Xeon E5- 2665 |
970 ₽ | 8 (16) | 2.4 (3.1) GHC | 20 MB | 115 W | 32 nm | ||||
Xeon E5- 4640 |
2 116 ₽ | 8 (16) | 2.4 (2.8) GHC | 20 MB | 95 W | 32 nm | DDR3-1600 | SANDY BridgeEP |
||
Xeon E5- 4610 v2 |
1 959 ₽ | 8 (16) | 2.3 (2.7) GHC | 16 MB | 95 W | DDR3-1600 | IVY Bridge EP |
|||
Xeon E5- 2660 |
882 ₽ | 8 (16) | 2.2 (3) GHC | 20 MB | SANDY 9009 | |||||
Xeon E5- 4620 |
1 411 ₽ | 8(16) | 2.2(2.6) GHz | 16MB | 95W | 32nm | DDR3-1333 | Sandy Bridge EP |
||
Xeon E5- 2658 |
839 ₽ | 8 (16) | 2. 1 (2.4) GHC | 20 MB | 95 W | 32 nm | DDR3-1600 9009 9000 SANDY BridgeEP | |||
Xeon E5- 2650 |
712 RUB2 95W | 32nm | DDR3-1600 | Sandy Bridge EP |
||||||
Xeon E5- 2640 V2 |
696 ₽ | 8 (16) | 2 (2.5) GHz | 20 MB | 900 | 9009 9009 | EP | |||
Xeon E5- 2628L V2 |
1 411 ₽ | 8 (16) | 1.9 (2.4) GHC | 20 MB | 70 W | 22 Nm | DDR3-1600 | Ivy Bridge EP |
||
Xeon E5- 2650L |
754 ₽ | 8 (16) | 1.8 (2.3) GHC | 20 MB | 70 W | 32 nm | DDR3-1600 9009 9000 SANDY BridgeEP | |||
Xeon E5- 2648L |
783 ₽ | 8 (16) | 1.8 (2.1) GHC | 20 MB | 70 W | 32 nm | DDR3-1600 9000 9000 SANDY BridgeEP | |||
Xeon E5- 4627 V2 |
5 330 ₽ | 8 | 3. 3 | 16 MB | 22 Nm | DDR3-1866 | IVY BRIDGE EP 9000 BRIDGE EP 9000 BRIDGE EP 9000 | |||
Xeon E5- 1660 V2 |
970 ₽ | 6 (12) | 3.7 (4) GHC | 15 MB | 130 W | |||||
Xeon E5- 1650 v2 |
3 881 ₽ | 6(12) | 3.5(3.9) GHz | 12MB | 130W | 22nm | DDR3-1866 | |||
Xeon E5- 2643 V2 |
2 805 ₽ | 6 (12) | 3.5 (3.8) GHC | 25 MB | 130 W | 22 nm | DDR3-18666666666666666666666666666666666666666666666666666666666666666666666666666E Ivy Bridge EP |
|||
Xeon E5- 16600094 | 15MB | 130W | 32nm | DDR3-1600 | Sandy Bridge EP |
|||||
Xeon E5- 1650 |
3 147 ₽ | 6 (12) | 3. 2 (3.8) GHz | 12 MB | 130 W | SANDY BridgeEP |
||||
Xeon E5- 2667 |
986 RUB4 | 32 nm | DDR3-1600 | Sandy Bridge EP |
||||||
Xeon E5- 2630 V2 |
678 ₽ | 6 (12) | 2.6 (3.1) GHC | 15 MB | 80 W | DDR3-1600 9009 9 BridgeEP |
||||
Xeon E5- 4607 V2 |
1 403 ₽ | 6 (12) | 2.6 GHz | 15 MB | 95 W | DDR3-1333 | Ivy Bridge EP |
|||
Xeon E5- 2640 |
568 ₽ | 6 (12) | 2.5 (3) GHz | 15 MB | 32 nm | Sandy 9009 | ||||
Xeon E5- 4610 |
1 019 ₽ | 6 (12) | 2.4 (2.9) GHC | 15 MB | 95 W | 32 nm | DDR3-1333 9 BridgeEP |
|||
Xeon E5- 2630L V2 |
658 ₽ | 6 (12) | 2. 4 (2.8) GHz | 15 MB | 60 W | DDR3-1600 | IVY 9000 Bridge EP | |||
Xeon E5- 2630 |
617 ₽ | 6 (12) | 2.3 (2.9) GHC | 15 MB | 95 W | |||||
Xeon E5- 4607 |
1 567 ₽ | 6(12) | 2.2 | 12MB | 95W | 32nm | DDR3-1066 | Bridge EP | ||
Xeon E5- 2620 V2 |
565 ₽ | 6 (12) | 2.1 (2.6) GHC | 15 MB | 80 VT | 9009 9 BridgeEP |
||||
Xeon E5- 2630L |
6(12) | 2(2.5) GHz | 15MB | 60W | 32nm | DDR3-1333 | Sandy Bridge EP |
|||
Xeon E5- 2620 |
525 ₽ | 6 (12) | 2 (2.5) GHz | 15 MB | 900 | 32 nm | DDR3-1333 | SANDY 9009 | ||
Xeon E5- 4617 |
2 743 ₽ | 6 | 2. 9 (3.4) GHC | 15 MB | 130 W | 32 nm | DDR3-1600 | Sandy Bridge EP |
||
Xeon E5- 1620 V2 |
1 680 ₽ | 4 (8) | 3.7 (3.9) GHC | 10 MB | 130 W | DDR3-18669 9009 9 Ivy Bridge EP |
||||
Xeon E5- 1620 |
1 517 ₽ | 4 (8) | 3.6 (3.8) GHC | 10 MB | 130 W | SANDY BridgeEP |
||||
Xeon E5- 2637 V2 |
1 315 ₽ | 4 (8) | 3.5 (3.8) GHC | 15 MB | 130 W | DDR3-1866666666666666666666666666666666666666 Ivy Bridge EP |
||||
Xeon E5- 2643 |
696 ₽ | 4 (8) | 3.3 (3.5) GHC | 10 MB | 130 W | SANDY BridgeEP | ||||
Xeon E5- 4603 v2 |
1 058 ₽ | 4 (8) | 2. 2 | 10 MB | 95 W | DDR3-1333 | IVY Bridge EP |
|||
Xeon E5- 4603 |
1 058 ₽ | 4 (8) | 2 GHz | 10 MB | 95 W | 32 Nm | DDR3-1066 | SANDY | SANDY | SANDY |
Xeon E5- 1607 v2 |
2 3GHz | 10MB | 130W | 22nm | DDR3-1600 | Ivy Bridge EP |
||||
Xeon E5- 1607 |
783 ₽ | 4 | 3 GHz | 10 MB | 130 W | 32 Nm | DDR3-1066 | SANDY 9000 SANDY 9000 SANDY 9000 SANDY | ||
Xeon E5- 1603 |
$7140094 | DDR3-1066 | Sandy Bridge EP |
|||||||
Xeon E5- 2609 V2 |
626 ₽ | 4 | 2.5 GHz | 10 MB | 80 W | 22 Nm | DDR3-1333 | IVY 9000 Bridg | ||
Xeon E5- 2609 |
513 ₽ | 2. 4 GHz | 10 MB | 80 W | 32 Nm Nm | DDR3-1066 | SANDY 9000 SANDY 9000 SANDYfour | |||
Xeon E5- 2603 V2 |
1 030 ₽ | 4 | 1.8 GHz | 10 MB | 80 W | 22 Nm | DDR3-1333 | IVY 9000 Bridget | ||
Xeon E5- 2603 |
998 ₽ | 1.8 GHz | 10 MB | 80 W | 32 Nm Nm | DDR3-1066 | SANDY 9000 SANDY 9000 SANE | |||
Xeon E5- 2637 |
1 175 ₽ name | |||||||||
Xeon E5- 2470 V2 |
2 914 ₽ | 10 (20) | 2.4 (3.2) GHC | 25 MB | 22 Nm | DDR3-1600 | Ivy Bridge EN |
|||
Xeon E5- 2448L v2 |
? | 10(20) | 1.8(2.4) GHz | 25MB | 70W | 22nm | DDR 3-1600 | 90 Bridge 90 Bridge 90 | ||
Xeon E5- 2438L v3 |
? | 10(20) | 1. 8 | 25 MB | 70 W | 22 nm | ||||
Xeon E5- 2450L V2 |
3 057 ₽ | 10 (20) | 1.7 (2.1) GHC | 25 MB | 60 W | 22 nm | DDR3-1600 9009 9 Ivy Bridge EN |
|||
Xeon E5- 2450 v2 |
2 311 ₽ | |||||||||
Xeon E5- 2470 |
1 315 ₽ | 8 (16) | 2.3 (3.1) GHC | 20 MB | 95 W | 32 nm | DDR3-1600 | SANDY Bridge EN |
||
Xeon E5- 2450 |
777 RUB | 8(16) | 2.1(2.9) GHz | 20MB | 95W | 32nm | DDR3-1600 | Sandy Bridge EN |
||
Xeon E5- 1428L v3 |
? Haswell | |||||||||
Xeon E5- 2440 V2 |
1 137 ₽ | 8 (16) | 1.9 (2.4) GHC | 20 MB | 95 W | DDR3-1600 | Ivy Bridge EN |
|||
Xeon E5- 2428L v2 |
? 1. 8(2.3) GHz | |||||||||
Xeon E5- 2450L |
941 ₽ | 8 (16) | 1.8 (2.3) GHC | 20 MB | 70 W | nm | Sandy Bridge EN | |||
Xeon E5- 2448L |
3 527 ₽ | 8 (16) | 1.8 (2.1) GHz | 20 MB | 70 W | SANDY 9000 Bridge EN | ||||
Xeon E5- 2428L v3 |
? Haswell4 | |||||||||
Xeon E5- 2430 v2 |
1 541 ₽ | 6(12) | 2.5(3) GHz | 15MB | 80W | 22nm | DDR3-1600 | Ivy 9004 | ||
Xeon E5- 2440 |
666 ₽ | 6 (12) | 2.4 (2.9) GHC | 15 MB | 95 W | |||||
Xeon E5- 2430L v2 |
$13 | 6(12) | 2.4(2.8) GHz | 15MB | 60W | 22nm | DDR3-1600 | Ivy Bridge EN |
||
Xeon E5- 2420 V2 |
665 ₽ | 6 (12) | 2. 2 (2.7) GHC | 15 MB | 80 V. | IVY | IVY Bridge EN |
|||
Xeon E5- 1428L v2 |
? | 6(12) | 2.2(2.7) GHz | 15MB | 60W | 22nm | DDR3-1600 | Ivy Bridge EN |
||
Xeon E5- 2430 |
666 ₽ | 6 (12) | 2.2 (2.7) GHz | 15 MB | 900 | 32 nm | SANDY Bridge EN | |||
Xeon E5- 2430L |
391 ₽ | 6 (12) | 2 (2.5) GHz | 15 MB | 60 W | DDR3-1333 | SANDY 9009 | |||
Xeon E5- 2418L v3 |
? Haswell | |||||||||
Xeon E5- 2418L V2 |
2_273_ Rhesi | 6 (12) | 2 GHz | 15 MB | 50 W | DDR3-133 | ||||
Xeon E5- 2420 |
6(12) | 1.9(2.4) GHz | 15MB | 95W | 32nm | DDR3-1333 | Sandy7 | |||
Xeon E5- 2428L |
1 959 ₽ | 6 (12) | 1. 8 (2) GHC | 15 MB | 60 W | |||||
Xeon E5- 1428L |
? | 6(12) | 1.8GHz | 15MB | 60W | 32nm | DDR3-1333 | Sandy Bridge EN |
||
Xeon E5- 1410 V2 |
2 038 ₽ | 4 (8) | 2.8 (3.2) GHC | 10 MB | 80 W | 22 Nm | DDR3-13333333 Ivy Bridge EN |
|||
Xeon E5- 1410 |
2 273 ₽ | 4 (8) | 2.8 (3.2) GHC | 10 MB | 80 W | 32 nm | DDR3-1333 | Sandy Bridge EN |
||
Xeon E5- 2418L |
784 ₽ | 4 (8) | 2 (2.1) GHz | 10 MB | Nm | Sandy 9009 | ||||
Xeon E5- 2408L v3 |
? Haswell | |||||||||
Xeon E5- 2407 V2 |
601 ₽ | 4 | 2. 4 GHz | 10 MB | 80 W | 22 Nm | DDR3-1333 | IVY
07 Bridge0 Bridge 9000 | ||
Xeon E5- 2407 |
347 ₽ | 4 | 2.2 GHz | 10 MB | 80 W | 32 Nm | DDR3-1066 | SANDY 9000 Bridg | ||
Xeon E5- 2403 V2 |
627 ₽ | 4 | 1.8GHz | 10MB | 80W | 22nm | DDR3-1333 | Ivy Bridge EN 4 | ||
Xeon E5- 2403 |
627 ₽ | 4 | 1.8 GHz | 10 MB | 80 W | 32 Nm | DDR3-1066 | SANDY 9000 Bridg |
Intel
Xeon E5-2620 processor [in 3 benchmarks]
Intel
Xeon E5-2620
- Interface
- Core frequency
- Video memory size
- Memory type
- Memory frequency
- Maximum resolution
Description
Intel started Intel Xeon E5-2620 sales on March 6, 2012 at a suggested price of $36. This is a desktop processor based on the Sandy Bridge-EP architecture, primarily designed for office systems. It has 6 cores and 12 threads and is manufactured using 32nm process technology, the maximum frequency is 2500MHz, the multiplier is locked.
In terms of compatibility, this is an FCLGA2011 socket processor with a TDP of 95W. It supports DDR3 memory.
It provides poor benchmark performance at
5.24%
from the leader, which is AMD EPYC 7h22.
Xeon E5
2620
or
EPYC
7h22
General information
Information about the type (desktop or laptop) and architecture of the Xeon E5-2620, as well as when sales started and cost at that time.
Place in the performance rating | 1212 | ||||||||||||||||||||||||
price-quality | 2 1. 46 |
Value for money
To obtain an index, we compare the characteristics of processors and their cost, taking into account the cost of other processors.
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Features
Xeon E5-2620 quantitative parameters such as number of cores and threads, clock speeds, manufacturing process, cache size and multiplier lock state. They indirectly speak about the performance of the processor, but for an accurate assessment, you need to consider the results of the tests.
Compatibility
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Information on Xeon E5-2620 compatibility with other computer components. Useful, for example, when choosing the configuration of a future computer or to upgrade an existing one.
Please note that the power consumption of some processors can significantly exceed their nominal TDP even without overclocking. Some may even double their claims if the motherboard allows you to adjust the power settings of the processor.
Security Technology
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Technologies embedded in the Xeon E5-2620 that enhance system security, such as those designed to protect against hacking.
TXT | + | |
EDB | +
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8 |
Identity Protection | — |
Virtualization Technologies
Technologies supported by Xeon E5-2620 that speed up virtual machines are listed.
VT-D | + | |
VT-X | + | |
RAM support
Types, maximum amount and channels of RAM supported by Xeon E5-2620. Higher memory frequency may be supported depending on the motherboard.
RAM | DDR3 | out of 5200 (Ryzen 5 7600x) |
Permissible memory volume | 384 GB 9 GB 9 GB GB 9 GB 984 GB0005
Overall benchmark performanceThis is our overall performance rating. We regularly improve our algorithms, but if you find any inconsistencies, feel free to speak up in the comments section, we usually fix problems quickly.
Xeon E5-2620
PassmarkPassmark CPU Mark is a widely used benchmark that consists of 8 different tests, including integer and floating point calculations, extended instruction tests, compression, encryption, and game physics calculations. Also includes a separate single-threaded test. Benchmark coverage: 68%
Xeon E5-2620 GeekBench 5 Single-CoreGeekBench 5 Single-Core is a cross-platform application designed as CPU benchmarks that independently recreate certain real world tasks that can be used to accurately measure performance. This version uses only one processor core. Benchmark coverage: 37%
Xeon E5-2620 GeekBench 5 Multi-CoreGeekBench 5 Multi-Core is a cross-platform application designed as CPU benchmarks that independently recreate certain real world tasks that can accurately measure performance. This version uses all available processor cores. Benchmark coverage: 37%
Xeon E5-2620 Relative capacityOverall Xeon E5-2620 performance compared to its nearest competitor in server processors.
Intel Xeon E3-1240L v3
Intel Xeon X5687
AMD Opteron 6274
Intel Xeon E5-2620
Intel Xeon E5-2430L
Intel Xeon E3-1225v3
AMD Opteron 6272 Other processorsHere we recommend several processors that are more or less similar in performance to the reviewed one. Compare Compare Compare Compare Compare Compare Recommended video cardsAccording to our statistics, these video cards are most often used with Xeon E5-2620: 6. 5% 6.3% 5.7% 5.2% 4.6% 4.5% 3.3% 3% 2.9% 2.8% User ratingHere you can see the evaluation of the processor by users, as well as put your own rating. Tips and commentsHere you can ask a question about the Xeon E5-2620 processor, agree or disagree with our judgements, or report errors or inaccuracies on the site. Please enable JavaScript to view the comments powered by Disqus. Processor Intel XEON 6 Core E5-2620 V3 2.40GHz(SR207) (SR207)Basic functions
Performance
memory module specifications
Expansion options
Chassis Specifications
Advanced Technology
Safety and security
Intel Core i7-4770K vs Intel Xeon E5-2620: What is the difference?49 BALLLA Intel Core i7-4770K 35 BALLLA Intel Xeon E5-2620 VS 64 Facts compared to I7-4770K 222 INTEL XEON E5-222 Is 4770K better than Intel Xeon E5-2620?
Why is Intel Xeon E5-2620 better than Intel Core i7-4770K?
Which comparisons are the most popular?AMD Ryzen 5 5500U vs Intel Core i5-1135G7 AMD Ryzen 3 3250U VS Intel Core i3-1115g4 AMD Ryzen 3 5300U VS Intel Core i3-1115g4 AMD Ryzen 5 3500U VS 9000u 9000U 9000U AMD AMD AMD AMD AMD AMD AMD vs Intel Core i5-10210u AMD Ryzen 7 5800h VS Intel Core i7-11800h AMD Ryzen 5 3500u VS AMD RYUN0002 1 reviews of users Intel Xeon E5-2620 10.0 /10 1 Reviews of users FunctionsReviews reviews are not yet 10.0 No Reviews0002 10.0 /10 1 Votes Energy efficiency Reviews not yet 10.0 /10 1 Votes performance1. Squamice of the central processor 41 x 2GHz CPU speed indicates how many processing cycles per second the processor can perform, considering all its cores (processors). It is calculated by adding the clock speeds of each core or, in the case of multi-core processors, each group of cores. 2.processor thread More threads result in better performance and better multitasking. 3.speed turbo clock 3.9GHz 2.5GHz When the processor is running below its limits, it can jump to a higher clock speed to increase performance. 4. Has unlocked multiplier ✔Intel Core i7-4770K ✖Intel Xeon E5-2620 Some processors come with an unlocked multiplier and are easier to overclock, allowing for better performance in games and other applications. 5.L2 Cache More L2 scratchpad memory results in faster results in CPU and system performance tuning. 6.L3 cache More L3 scratchpad memory results in faster results in CPU and system performance tuning. 7.L1 cache More L1 cache results in faster results in CPU and system performance tuning. 8.core L2 0.25MB/core 0.25MB/core More data can be stored in the L2 scratchpad for access by each processor core. 9.core L3 2MB/core 2.5MB/core More data can be stored in the L3 scratchpad for access by each processor core. Memory1.RAM speed 1600MHz 1333MHz Can support faster memory which speeds up system performance. 2.max memory bandwidth 25.6GB/s 42.6GB/s This is the maximum rate at which data can be read from or stored in memory. 3rd DDR memory version Unknown. Help us offer a price. (Intel Xeon E5-2620) DDR (Double Data Rate Synchronous Dynamic Random Access Memory) is the most common type of RAM. New versions of DDR memory support higher maximum speeds and are more energy efficient. 4 memory channels More memory channels increase the speed of data transfer between memory and processor. 5.maximum memory capacity Maximum memory capacity (RAM). 6.baud rate bus 7.2GT/s The bus is responsible for transferring data between different components of a computer or device. 7. Supports memory debug code ✖Intel Core i7-4770K ✔Intel Xeon E5-2620 Memory debug code can detect and fix data corruption. It is used when necessary to avoid distortion, such as in scientific computing or when starting a server. 8.eMMC version Unknown. Help us offer a price. (Intel Core i7-4770K) Unknown. Help us offer a price. (Intel Xeon E5-2620) A newer version of eMMC — Embedded Flash Memory Card — speeds up the memory interface, has a positive effect on device performance, for example, when transferring files from a computer to internal memory via USB. 9.bus frequency Unknown. Help us offer a price. (Intel Core i7-4770K) Unknown. Help us offer a price. (Intel Xeon E5-2620) The bus is responsible for transferring data between various components of a computer or device Geotagging1. PassMark result This test measures processor performance using multi-threading. 2. PassMark result (single) This test measures processor performance using a thread of execution. 3. Geekbench 5 result (multi-core) Unknown. Help us offer a price. (Intel Xeon E5-2620) Geekbench 5 is a cross-platform benchmark that measures multi-core processor performance. (Source: Primate Labs, 2022) 4. Cinebench R20 result (multi-core) Unknown. Help us offer a price. (Intel Xeon E5-2620) Cinebench R20 is a test that measures the performance of a multi-core processor by rendering a 3D scene. 5.Cinebench R20 result (single core) Unknown. Help us offer a price. (Intel Xeon E5-2620) Cinebench R20 is a test to evaluate the performance of a single core processor when rendering a 3D scene. 6.Geekbench 5 result (single core) Unknown. Help us offer a price. (Intel Xeon E5-2620) Geekbench 5 is a cross-platform benchmark that measures the single-core performance of a processor. (Source: Primate Labs, 2022) 7. Blender test result (bmw27) 440.7seconds Unknown. Help us offer a price. (Intel Xeon E5-2620) The Blender benchmark (bmw27) measures CPU performance by rendering a 3D scene. More powerful processors can render a scene in a shorter time. 8.Blender result (classroom) 1376.9seconds Unknown. Help us offer a price. (Intel Xeon E5-2620) The Blender (classroom) benchmark measures CPU performance by rendering a 3D scene. More powerful processors can render a scene in a shorter time. 9.performance per watt This means that the processor is more efficient, giving more performance per watt of power used. Functions1.uses multithreading ✔Intel Core i7-4770K ✔Intel Xeon E5-2620 physical processor core into logical cores, also known as threads. Thus, each core can run two instruction streams at the same time. 2. Has AES ✔Intel Core i7-4770K ✔Intel Xeon E5-2620 AES is used to speed up encryption and decryption. 3. Has AVX ✔Intel Core i7-4770K ✔Intel Xeon E5-2620 AVX is used to help speed up calculations in multimedia, scientific and financial applications, and to improve the performance of the Linux RAID program. 4.Version SSE SSE is used to speed up multimedia tasks such as editing images or adjusting audio volume. Each new version contains new instructions and improvements. 5.Has F16C ✔Intel Core i7-4770K ✖Intel Xeon E5-2620 F16C is used to speed up tasks such as image contrast adjustment or volume control. 6 bits transmitted at the same time Unknown. Help us offer a price. (Intel Core i7-4770K) Unknown. Help us offer a price. (Intel Xeon E5-2620) NEON provides faster media processing such as MP3 listening. 7. Has MMX ✔Intel Core i7-4770K ✔Intel Xeon E5-2620 MMX is used to speed up tasks such as adjusting image contrast or adjusting volume. 8. Has TrustZone ✖Intel Core i7-4770K ✖Intel Xeon E5-2620 The technology is integrated into the processor to ensure device security when using features such as mobile payments and streaming video using digital rights management technology ( DRM). 9.interface width Unknown. Help us offer a price. (Intel Core i7-4770K) Unknown. Help us offer a price. (Intel Xeon E5-2620) The processor can decode more instructions per clock (IPC), which means that the processor performs better Price comparisonCancel Which CPUs are better?10 Features of Intel Xeon Server Processor E5-2600v5HomeArticles 10 Features of Intel Xeon Server Processor E5-2600v5 By mid-2017, Intel plans to release a new family of Xeon E5-2600v5 processors (codenamed Skylake-EP/ES) for servers and workstations. The processors are designed for the next generation Purley platform. What is already known today about these innovations, what should system integrators and end customers prepare for? Despite the fact that Intel traditionally does not comment on unofficial information, a lot of information about Purley’s «next station» has become available. The overall picture of the upcoming transition for two-processor systems looks like this: Now: server platforms codenamed Grantley with Xeon E5-2600 v4 Broadwell–EP processors, Wellsburg 610 series PCH chips and DDR4 SDRAM up to 2400 MHz. Coming soon: server platforms codenamed Purley with Xeon E5-2600 v5 Skylake-EP/ES processors, Lewisburg 620 series PCH chips and DDR4 SDRAM up to 2666 MHz. Let’s take a closer look at the most interesting features of these new products: 1. The physical size of the Skylake-EP / ES processors significantly exceeds the Broadwell-EP, which is also due to the new 3647-pin LGA-3647 (socket P) connector, which will replace the 2011-pin LGA-2011-3 (socket R3) currently used in dual-processor configurations of Broadwell-EP processors. The LGA-3647 slot is already familiar to many consumers. it is used in Intel Xeon Phi 200 (Knights Landing) GPU motherboards. 2. The significantly increased chip size of the new processors required a new cooling system with a different type of heatsink attachment to the server boards. The thermal package of the top versions of Skylake-EP / ES will be up to 165 W of heat, which is 20 W more than the TDP of the top Broadwell-EP processors. 3. For Intel Xeon E5-2600v5 processors, such an increase in the number of pins compared to LGA-2011-3 is due to the use of a new six-channel RAM controller in Skylake-EP / ES and, accordingly, the need to access 12 DDR4 DIMM module slots. Up to 768 GB of RAM is supported per processor, and when using the SMB buffer (scalable memory buffer) up to 6144 GB. Also new is that the memory controller of the Skylake-EP/ES processor will be able to work not only with DRAM modules, but also with 3D XPoint SSDs, which are capable of providing latency of less than 10 microseconds. There is still not enough information about how effectively this feature will be used, because it will be necessary to distribute access to different address spaces at the OS and application levels — to DRAM and to 3D XPoint (it is logical to use 3D XPoint as a cache for DRAM), but it is obvious that the potential benefits are quite large. 4. The QPI (QuickPath Interconnect) processor bus will be replaced by the UPI (UltraPath Interconnect) bus, which will allow, due to the new data transfer protocol, to provide performance up to 10.4 Gtransfer / sec. Skylake-EP/ES processors for 2 processor configurations will have 2 UPI bus channels. 5. New processors support 48 PCI Express 3.0 lanes instead of Broadwell-EP’s 32 PCI Express 3.0 lanes. 6. Skylake-EP/ES expects significant performance improvements in floating point and encryption through support for 512-bit AVX-512 (Advanced Vector Instructions-512) instructions. 7. According to preliminary information from Intel, Skylake-EP/ES processors will contain up to 28 cores. But at the end of 2016, information appeared about the existing real engineering sample of the Xeon E5-2699v5 processor with 32 physical cores and 64 Hyper-Threading computational threads. Thus, compared to the top processor Broadwell-EP Xeon E5-2699v4 (22 cores and 44 threads), the increase in the flagship Skylake-EP / ES will be from 6 to 10 physical cores. 8. Processors for the new Purley server platform will be available in 3 variants: Skylake–EP/ES for 2 processor configurations, Skylake–EX for 4 and 8 processor configurations, and Skylake-F – a special version of Skylake–EP processors for high-performance computing. Skylake-F will have an additional controller of the new Storm Lake interface on the same substrate as the processor die, which contains the Omni-Path Interconnect switching fabric with a throughput of 100 Gb / s and with a latency level 56% lower than that of today’s Infinband version. Among other things, Omni-Path can be used to connect to future generations of Xeon Phi GPUs. 9. The new PCH Lewisburg C620 (southbridge) logic set for connection to Skylake-EX processors will support 4 DMI 3.0 channels with a throughput of 8 Gtransfer / s, 4 ports of 10 Gbps Ethernet, 20 PCI Express 3.0 lanes, 14 SATA 3 ports, up to 14 USB ports, 10 of which are USB 3.0. An absolute novelty is built into the bridge: Intel Innovation Engine — a dedicated 32-bit x86-core, which is designed to run third-party remote server management software. The new IntelQuickAssist hardware accelerator, replacing the Coleto Creek chipset, will increase decryption performance by 2.5 times and data compression by 4 times. 10. Intel Purley server platforms and Intel Skylake-EP/ES processors expected by mid-2017. It is possible that their release will be announced during the summer Computex 2017. So, despite the fact that the Skylake server processor architecture is built on the same 14 nm process technology as the previous generation of Broadwell, Intel offers a significant improvement in the technical characteristics of the Purley generation servers . And the new Skylake processor memory controller, Omni-Path Interconnect fabric, and LGA-3647 processor socket P set the stage for the future. Let’s start waiting! 🙂 Follow the news. References: © intel.com, © wccftech.com, © techpowerup.com, © 3dnews.ru, © servernews.ru, © overclockers.ru Update: Intel Xeon processor E5-2600v5 family received name Intel Xeon Scalable and code «metal» subgroups — Platinum, Gold, Silver and Bronze. © Alexander Matveev, 2017 This email address is being protected from spambots. You must have JavaScript enabled to view. business development director of Vist SPb LLC All trademarks, texts or logos appearing in this article are the property of their respective owners. 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