Speed Xeon E5-26xx v3 | tonymacx86.com
ajschot
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#1
is there someone with a X99 in combintaion with E5-26xx V3?
I have 2 machines one with a E5-2683 v3 and one with a E5-2696 v3 and both have trouble with speed.
Geekbench gives me 20000 and 27000 of multi core score’s. However on Geekbench score’s i see people getting 40.000 on the E5-2696 v3.
I tried al XCPM patches and without.
Not getting higher values.
Anybody can help?
VioletDragon
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#2
ajschot said:
is there someone with a X99 in combintaion with E5-26xx V3?
I have 2 machines one with a E5-2683 v3 and one with a E5-2696 v3 and both have trouble with speed.![]()
Geekbench gives me 20000 and 27000 of multi core score’s. However on Geekbench score’s i see people getting 40.000 on the E5-2696 v3.
I tried al XCPM patches and without.
Not getting higher values.
Anybody can help?Click to expand…
Have you taken a look at https://www.tonymacx86.com/threads/…broadwell-ep-haswell-ep-cpus-on-10-12.204468/
ajschot
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#3
VioletDragon said:
Have you taken a look at https://www.
tonymacx86.com/threads/…broadwell-ep-haswell-ep-cpus-on-10-12.204468/
Click to expand…
Yes this is one of the things i tried but i get better results without xcpm but also sometimes my machine freezes.
On my i7 4770 i had better benchmarks on osx then on windows now with the xeon windows gives me 15%-20% more speed.
I hoped one of the high scored people is on Tonymacx86…
For both systems i have a other brand motherboard and tried also to switch the processors but it does not matter… (have not tried hs yet…)
Xeonphobe
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#4
I just ran this on Linux using a 2683 v3 on an X99 Taichi if you need some comparison.
Note that Geekbench 4.1 seems a little higher score than 4.0
http://browser.geekbench.com/v4/cpu/3717593
VioletDragon
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#5
ajschot said:
Yes this is one of the things i tried but i get better results without xcpm but also sometimes my machine freezes.
On my i7 4770 i had better benchmarks on osx then on windows now with the xeon windows gives me 15%-20% more speed.
I hoped one of the high scored people is on Tonymacx86...
For both systems i have a other brand motherboard and tried also to switch the processors but it does not matter… (have not tried hs yet…)Click to expand…
You will get more performance with the i7 4770. A Genuine Mac has had that CPU. Without Native Powermanagement implemented you will get poor performance you will need to match the hardware to a SMBIOS.
ajschot
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#6
Xeonphobe said:
I just ran this on Linux using a 2683 v3 on an X99 Taichi if you need some comparison.
Note that Geekbench 4.1 seems a little higher score than 4.0
http://browser.geekbench.com/v4/cpu/3717593
Click to expand…
how?? Do you use the bios mod for the microcode hack?
I even not getting that on my E5-2696v3 (which is a 18 core’s 2,3Ghz turbo to 3,8Ghz…) man that is high! I am doing something wrong… maybe i have to set something in bios?? i now running with Load Optimized settings getting 27000 multicore really disapointing. Also if i look at the CPU monitor it never goes into reds keeps half way when running geekbench
VioletDragon
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#7
ajschot said:
how?? I even not getting that on my E5-2696v3 (which is a 18 core’s 2,3Ghz turbo to 3,8Ghz.
..) man that is high! I am doing something wrong… maybe i have to set something in bios?? i now running with Load Optimized settings getting 27000 multicore really disapointing. Also if i look at the CPU monitor it never goes into reds keeps half way when running geekbench
Click to expand…
The Link shows its in Linux not macOS.
ajschot
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#8
VioletDragon said:
The Link shows its in Linux not macOS.
Click to expand…
I know but i get 20.000 on my E5-2683v3 that is a hugh difference!
Xeonphobe
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#9
Yes, modified BIOS to run all cores at 30x except AVX2 which drops one bin to all cores at 29x. Would like a little more even but held back by the manufacturers constraints.
The gain should only be 20% to 25% compared to stock so something seems amiss unless you are running the 32-bit bench instead of the 64-bit one.
hsz
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#10
Xeonphobe said:
I just ran this on Linux using a 2683 v3 on an X99 Taichi if you need some comparison.
Note that Geekbench 4.1 seems a little higher score than 4.0
http://browser.geekbench.com/v4/cpu/3717593
Click to expand…
Hello,
Can you give me your efi file?
supermicro mbd-x10sra-f / E5-2683 v3 / Dual NVME Cards or SSD ?
kumarmvnk
Explorer
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#1
Hi I am planning to build freenas 20 TB (10 x 2TB RaidZ2) with the
supermicro mbd-x10sra-f motherboard
Intel Xeon E5-2683 v3 14-core/28 thread 2GHz 120W LGA2011-3
Kingston 4x16GB RDIMM DDR4 2400MHz KVR24R17D8K4/64
Motherboard deatures
| PCI-E |
|
0 x16I am need suggestions as to what option is is good value for money with long run for performance depending the specs on above.
1) NVME on PCIE CARD & as the mobo does not support NVME
2) Dual NVME on PCIE CARD with two NVMEs
3) One SSD
4) Two SSD with raid 0
5) Or just another HDD
Supermicro mbd-x10sra-f motherboard
Intel Xeon E5-2683 v3 14-core/28 thread CPU
Kingston 4x16GB RDIMM DDR4 2400MHz(However CPU uses it as 2133mhz)
PCIE x 4 NVME WD Black 500Gb
Mellanox MCX354A-QCBT ConnectX-3 QDR Infiniband
Samuel Tai
Never underestimate your own stupidity
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#2
Until you describe your anticipated use cases, there’s not enough information to choose.
Will this be a simple file server? Are you planning to run this stuffed to the gills with VMs and jails? How will you share out to clients: SMB, NFS, iSCSI?
Supermicro 721TQ-350B NAS case (replaced Norco ITX-S4 2021)
Asrock E3C226D2I motherboard
Intel Xeon E3-1230L v3
2x 8 GB Kingston KVR16LE11/8KF 1600MHz DDR3L 1.35v ECC DRAM
Data pool
RAIDZ2 of 4x Western Digital Red WD40EFRX (originally all WD20EFRX, expanded in 2020)
L2ARC of 1x 512 GB Intel Optane HBRPEKNX0202AH M.2 NVMe (replaced OWC Mercury Accelsior E2 PCIe SSD 2021)
ZIL of 1x 200 GB Intel DC S3710 with PLP (replaced 32GB Intel X-25-E SLC SSD 2021)
Boot pool
16 GB Kingston SNS4151S316G M.2 SSD connected via USB3-to-M.2 adapter (replaced numerous failed thumb drives 2018)
Backup method
Critical datasets mounted in custom basejail
Nightly borgbackup of these datasets to rsync.
net
Weekly manual replication to offline USB3.0 pool.
kumarmvnk
Explorer
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#3
I plan to un Plex server with home videos / photos / SMB File share between countries family members that is all for now.
Supermicro mbd-x10sra-f motherboard
Intel Xeon E5-2683 v3 14-core/28 thread CPU
Kingston 4x16GB RDIMM DDR4 2400MHz(However CPU uses it as 2133mhz)
PCIE x 4 NVME WD Black 500Gb
Mellanox MCX354A-QCBT ConnectX-3 QDR Infiniband
Samuel Tai
Never underestimate your own stupidity
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#4
Unless you absolutely need the speed, the NVMe on PCI-E options are likely overkill, and you’ll need to shut down the whole box to swap out bad NVMe drives.
In your case, what’s limiting the speed is the ISP connections between family members in different countries.
Simple SSDs are your most cost-effective option for now, but I recommend against running them as stripes, as a single drive failure will bring down your entire zpool. Either mirrors or RAIDZx zpools would be better for data safety.
Your chosen CPU doesn’t have Plex HW transcode capability.
Supermicro 721TQ-350B NAS case (replaced Norco ITX-S4 2021)
Asrock E3C226D2I motherboard
Intel Xeon E3-1230L v3
2x 8 GB Kingston KVR16LE11/8KF 1600MHz DDR3L 1.35v ECC DRAM
Data pool
RAIDZ2 of 4x Western Digital Red WD40EFRX (originally all WD20EFRX, expanded in 2020)
L2ARC of 1x 512 GB Intel Optane HBRPEKNX0202AH M.2 NVMe (replaced OWC Mercury Accelsior E2 PCIe SSD 2021)
ZIL of 1x 200 GB Intel DC S3710 with PLP (replaced 32GB Intel X-25-E SLC SSD 2021)
Boot pool
16 GB Kingston SNS4151S316G M..jpg)
2 SSD connected via USB3-to-M.2 adapter (replaced numerous failed thumb drives 2018)
Backup method
Critical datasets mounted in custom basejail
Nightly borgbackup of these datasets to rsync.net
Weekly manual replication to offline USB3.0 pool.
kumarmvnk
Explorer
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#5
IC … Presently i have not built this
SSD is good what i understand. Two SSD vs one in Raidz (I wrote wrongly as Raid 0)
For «Intel Xeon E5-2683 v3 14-core/28 thread 2GHz 120W LGA2011-3 » can i not use my old GPU «ATI RADEON HD 4850 GDDR3 1GB VIDEO GRAPHICS CARD» ??
Supermicro mbd-x10sra-f motherboard
Intel Xeon E5-2683 v3 14-core/28 thread CPU
Kingston 4x16GB RDIMM DDR4 2400MHz(However CPU uses it as 2133mhz)
PCIE x 4 NVME WD Black 500Gb
Mellanox MCX354A-QCBT ConnectX-3 QDR Infiniband
Samuel Tai
Never underestimate your own stupidity
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#6
That video card might work.
It’s listed in the FreeBSD support matrix at https://wiki.freebsd.org/Graphics/AMD-GPU-Matrix. I’ve no idea if it can be used inside a jail for Plex HW acceleration, though.
Supermicro 721TQ-350B NAS case (replaced Norco ITX-S4 2021)
Asrock E3C226D2I motherboard
Intel Xeon E3-1230L v3
2x 8 GB Kingston KVR16LE11/8KF 1600MHz DDR3L 1.35v ECC DRAM
Data pool
RAIDZ2 of 4x Western Digital Red WD40EFRX (originally all WD20EFRX, expanded in 2020)
L2ARC of 1x 512 GB Intel Optane HBRPEKNX0202AH M.2 NVMe (replaced OWC Mercury Accelsior E2 PCIe SSD 2021)
ZIL of 1x 200 GB Intel DC S3710 with PLP (replaced 32GB Intel X-25-E SLC SSD 2021)
Boot pool
16 GB Kingston SNS4151S316G M.2 SSD connected via USB3-to-M.2 adapter (replaced numerous failed thumb drives 2018)
Backup method
Critical datasets mounted in custom basejail
Nightly borgbackup of these datasets to rsync.
net
Weekly manual replication to offline USB3.0 pool.
kumarmvnk
Explorer
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#7
Super Samuel. Thank you for the very quick response. Also heard from Supermicro support that NVME is not supported.
I am just planning much ahead that next 10 years i don’t want to re-install FREENAS..if that is something i can live with..
Supermicro mbd-x10sra-f motherboard
Intel Xeon E5-2683 v3 14-core/28 thread CPU
Kingston 4x16GB RDIMM DDR4 2400MHz(However CPU uses it as 2133mhz)
PCIE x 4 NVME WD Black 500Gb
Mellanox MCX354A-QCBT ConnectX-3 QDR Infiniband
kumarmvnk
Explorer
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#8
Hi
I could get the following running good.
supermicro mbd-x10sra-f motherboard
Intel Xeon E5-2683 v3 14-core/28 thread 2GHz 120W LGA2011-3
Kingston 4x16GB RDIMM DDR4 2400MHz(However CPU uses it as 2133mhz)
PCIE x 4 card based NVME WD Black 500Gb
However the GPU — ATI RADEON HD 4850 GDDR3 1GB VIDEO GRAPHICS CARD — did not show up might be Motherboard jumper settings. But as using Freenas & Plex — I did not know how much it effect the videos that i might view!!!
Supermicro mbd-x10sra-f motherboard
Intel Xeon E5-2683 v3 14-core/28 thread CPU
Kingston 4x16GB RDIMM DDR4 2400MHz(However CPU uses it as 2133mhz)
PCIE x 4 NVME WD Black 500Gb
Mellanox MCX354A-QCBT ConnectX-3 QDR Infiniband
Samuel Tai
Never underestimate your own stupidity
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#9
You may also need to set some loader tunables:
drm_load=YES
radeonkms_load=YES
to get your video card going.
Remember to reboot after setting the tunables to get them to take effect.
Supermicro 721TQ-350B NAS case (replaced Norco ITX-S4 2021)
Asrock E3C226D2I motherboard
Intel Xeon E3-1230L v3
2x 8 GB Kingston KVR16LE11/8KF 1600MHz DDR3L 1.35v ECC DRAM
Data pool
RAIDZ2 of 4x Western Digital Red WD40EFRX (originally all WD20EFRX, expanded in 2020)
L2ARC of 1x 512 GB Intel Optane HBRPEKNX0202AH M.2 NVMe (replaced OWC Mercury Accelsior E2 PCIe SSD 2021)
ZIL of 1x 200 GB Intel DC S3710 with PLP (replaced 32GB Intel X-25-E SLC SSD 2021)
Boot pool
16 GB Kingston SNS4151S316G M.2 SSD connected via USB3-to-M.2 adapter (replaced numerous failed thumb drives 2018)
Backup method
Critical datasets mounted in custom basejail
Nightly borgbackup of these datasets to rsync.
net
Weekly manual replication to offline USB3.0 pool.
kumarmvnk
Explorer
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#10
I am also trying to get two car loaded for 10g
1) Myricom-10G-PCIE2-8C2-T-2T — Dual port card
2) ASUS XG-C100C — single port card
IS there any drivers or aspects i need to do for these to work other than getting the supermicro mbd-x10sra-f motherboard bios PCI / Pnp setting to enable to EFI for the slot being used ?
For the Radeon card, I need to change the jumpers too from VGA enable to GPU enable as per the SM board maual !!
Is drm_load=YES in turnable for 10g card or Radeon ?
Supermicro mbd-x10sra-f motherboard
Intel Xeon E5-2683 v3 14-core/28 thread CPU
Kingston 4x16GB RDIMM DDR4 2400MHz(However CPU uses it as 2133mhz)
PCIE x 4 NVME WD Black 500Gb
Mellanox MCX354A-QCBT ConnectX-3 QDR Infiniband
Samuel Tai
Never underestimate your own stupidity
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#11
drm_load tunable is for the Radeon.
The Myricom NIC is supported by the mxge driver. There’s no official driver for the Asus NIC, although there is a beta driver in the FreeBSD ports (aquantia-atlantic-kmod-0.0.5). Save yourself some trouble and skip the ASUS.
Last edited:
Supermicro 721TQ-350B NAS case (replaced Norco ITX-S4 2021)
Asrock E3C226D2I motherboard
Intel Xeon E3-1230L v3
2x 8 GB Kingston KVR16LE11/8KF 1600MHz DDR3L 1.35v ECC DRAM
Data pool
RAIDZ2 of 4x Western Digital Red WD40EFRX (originally all WD20EFRX, expanded in 2020)
L2ARC of 1x 512 GB Intel Optane HBRPEKNX0202AH M.2 NVMe (replaced OWC Mercury Accelsior E2 PCIe SSD 2021)
ZIL of 1x 200 GB Intel DC S3710 with PLP (replaced 32GB Intel X-25-E SLC SSD 2021)
Boot pool
16 GB Kingston SNS4151S316G M.
2 SSD connected via USB3-to-M.2 adapter (replaced numerous failed thumb drives 2018)
Backup method
Critical datasets mounted in custom basejail
Nightly borgbackup of these datasets to rsync.net
Weekly manual replication to offline USB3.0 pool.
kumarmvnk
Explorer
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#12
Can i know where i can find file & loading instructions for the Myricom? Please ? please provide the link for Asus driver in the FreeBSD ports too, incase the Myricomdoes not work then will go with Asus (I suppose similar process)
Supermicro mbd-x10sra-f motherboard
Intel Xeon E5-2683 v3 14-core/28 thread CPU
Kingston 4x16GB RDIMM DDR4 2400MHz(However CPU uses it as 2133mhz)
PCIE x 4 NVME WD Black 500Gb
Mellanox MCX354A-QCBT ConnectX-3 QDR Infiniband
Samuel Tai
Never underestimate your own stupidity
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#13
According to https://www.
freebsd.org/cgi/man.cgi?query=mxge&sektion=4, you’ll need to set the following loader tunables:
Code:
if_mxge_load="YES" mxge_ethp_z8e_load="YES" mxge_eth_z8e_load="YES" mxge_rss_ethp_z8e_load="YES" mxge_rss_eth_z8e_load="YES"
I can’t help you with the Asus driver, sorry.
Last edited:
Supermicro 721TQ-350B NAS case (replaced Norco ITX-S4 2021)
Asrock E3C226D2I motherboard
Intel Xeon E3-1230L v3
2x 8 GB Kingston KVR16LE11/8KF 1600MHz DDR3L 1.35v ECC DRAM
Data pool
RAIDZ2 of 4x Western Digital Red WD40EFRX (originally all WD20EFRX, expanded in 2020)
L2ARC of 1x 512 GB Intel Optane HBRPEKNX0202AH M.
2 NVMe (replaced OWC Mercury Accelsior E2 PCIe SSD 2021)
ZIL of 1x 200 GB Intel DC S3710 with PLP (replaced 32GB Intel X-25-E SLC SSD 2021)
Boot pool
16 GB Kingston SNS4151S316G M.2 SSD connected via USB3-to-M.2 adapter (replaced numerous failed thumb drives 2018)
Backup method
Critical datasets mounted in custom basejail
Nightly borgbackup of these datasets to rsync.net
Weekly manual replication to offline USB3.0 pool.
kumarmvnk
Explorer
-
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#14
so with my «Myricom-10G-PCIE2-8C2-T-2T — Dual port card » already in the motherboard where freenas is there is nothing i should do.
so my card must be faulty ?
Supermicro mbd-x10sra-f motherboard
Intel Xeon E5-2683 v3 14-core/28 thread CPU
Kingston 4x16GB RDIMM DDR4 2400MHz(However CPU uses it as 2133mhz)
PCIE x 4 NVME WD Black 500Gb
Mellanox MCX354A-QCBT ConnectX-3 QDR Infiniband
Samuel Tai
Never underestimate your own stupidity
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#15
You don’t. Please go to System->Tunables, and set them there.
Supermicro 721TQ-350B NAS case (replaced Norco ITX-S4 2021)
Asrock E3C226D2I motherboard
Intel Xeon E3-1230L v3
2x 8 GB Kingston KVR16LE11/8KF 1600MHz DDR3L 1.
35v ECC DRAM
Data pool
RAIDZ2 of 4x Western Digital Red WD40EFRX (originally all WD20EFRX, expanded in 2020)
L2ARC of 1x 512 GB Intel Optane HBRPEKNX0202AH M.2 NVMe (replaced OWC Mercury Accelsior E2 PCIe SSD 2021)
ZIL of 1x 200 GB Intel DC S3710 with PLP (replaced 32GB Intel X-25-E SLC SSD 2021)
Boot pool
16 GB Kingston SNS4151S316G M.2 SSD connected via USB3-to-M.2 adapter (replaced numerous failed thumb drives 2018)
Backup method
Critical datasets mounted in custom basejail
Nightly borgbackup of these datasets to rsync.net
Weekly manual replication to offline USB3.0 pool.
kumarmvnk
Explorer
-
-
#16
This works thanks
Supermicro mbd-x10sra-f motherboard
Intel Xeon E5-2683 v3 14-core/28 thread CPU
Kingston 4x16GB RDIMM DDR4 2400MHz(However CPU uses it as 2133mhz)
PCIE x 4 NVME WD Black 500Gb
Mellanox MCX354A-QCBT ConnectX-3 QDR Infiniband
90,000 characteristics, overview, acceleration, tests in games and benchmarks, purchase and prices
Content
- 1 characteristics
- 2 Acceleration
- 3 Cooling
- 4 performance and tests
- 6 Where to buy
9000 5 Revisions
Xeon e5 2683 v3 is the weakest but most affordable 14-core processor in the series.
It is not of particular interest for normal home use, but it can show itself in tasks that require a large number of cores / threads.
2800 MHz (3 cores)
2700 MHz (4 cores)
2600 MHz (5 cores)
2500 MHz (6 or more cores)
The processor only works with DDR4 memory. The maximum RAM frequency is 2133 MHz. The frequency of the memory controller is limited to 2700 MHz.
Overclocking
Like the entire Xeon e5 2600 v3 line, the model has a locked multiplier, but you can increase performance in other ways:
The turbo boost hack will increase both temperature and power consumption. It is recommended to take care of cooling both the processor and the power elements of the motherboard in advance.
Cooling
A tower cooler with 3-4 heat pipes can handle heat dissipation. If you plan to use the processor for a long time at high loads with an activated turbo boost unlock, it is better to give preference to the most massive models. Airflow also plays an important role. Of the models available on aliexpress, the Snowman MT4 is considered the best option, but you can immediately take the six-pipe model, which costs almost the same.
Proven models from local stores
Before buying a massive cooler, it is better to make sure that it will fit in the case. It is also worth considering that some models of motherboards have RAM slots close enough to the socket, which can also cause problems when installing large cooling systems.
Performance and Benchmarks
Despite the increased core count, most synthetic benchmarks only marginally outperform a 12-core Xeon e5 2678 v3 running at a slightly higher frequency.
Cinebench r15. The processor is in stock and after TB unlock.
Cinebecnh r20 result (TB unlocked)
Cpu-z benchmark (TB unlocked)
WinRar (TB unlocked)
Corona 1.3 for stock processor
:010:010 shows result in -010:015 30 — 01:40 for the unlocked.
More tests (including gaming ones) can be seen in the video from the TechnoPlanet channel:0003
When buying, it is recommended to ask the seller for a screenshot of cpu-z or HwInfo, where Stepping will be visible. You can read more about steppings and their meaning here.
Where to buy
Like most server stones, the model is sold on ebay, taobao and aliexpress. As a rule, buying on ebay is the most profitable, but as a rule, an intermediary is needed for delivery.
Buying on Ali is more familiar and convenient. Sellers:
- First
- Second
- Third
The QEY7 version is sold here.
DDR4 RAM Desktop (before buying, check the reviews for compatibility with LGA2011-3, it will not be superfluous to write to the seller for which system the memory is being purchased when ordering): (100% compatible with LGA2011-3):
- Samsung modules (more expensive)
- Kllisre modules (cheaper)
Find:
Comparison Intel Xeon E5-2683 v3 vs Intel Xeon E5-2698 v4 which is better?
Home / Intel Xeon E5-2683 V3 VS Intel Xeon E5-2698 V4
Intel Xeon E5-2683 V3
6%
Devicelist
VS
Intel E5-2698 V4
% 6% 6%
DeviceList Score
We compared the specifications of Intel Xeon E5-2683 v3 and Intel Xeon E5-2698 v4 and compiled a list of benefits and a comparison table for you.
Find out which one to choose in 2022.
Benefits of Intel Xeon E5-2683 v3
|
Value for money |
|
93.6% 89.2% (2027.3%) better than vs 4.4% |
|
Maximum core temperature |
|
83°C -7 °C (-7.8%) better than vs 90 °C |
Benefits of Intel Xeon E5-2698 v4
Comparison winner
|
Core |
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20 6 (42.9%) better than vs 14 |
|
threads |
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40 12 (42.9%) better than vs 28 |
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Maximum frequency |
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3.6 GHz 0. vs 3 GHz |
|
Process |
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14 nm -8 nm (-36.4%) better than vs 22 nm |
|
Passmark |
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16289 3160 (24.1%) better than vs 13129 |
|
Permissible memory size |
|
1500 GB 732 GB (95.3%) better than vs 768 GB |
6 GHz (20%) better than | General | |
|
Type |
|
| Server | Server |
|
Architecture code name |
|
| n/a | Broadwell |
|
Cores A large number of cores improves performance in multi-threaded applications. |
|
| 14 | 20
6 (42.9%) better than |
|
Threads More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases). |
|
| 28 | 40
On 12 (42.9%) better than |
|
Process |
|
| 22 nm | 14 nm
-8 nm (-36.4%) better than |
|
Crystal size |
|
| n/a | 456.12 mm2 |
|
Number of transistors |
|
| n/a | 7200 million |
|
Maximum frequency Faster clocked processors perform more calculations per second and thus provide better performance. |
|
| 3 GHz | 3.6 GHz
Better than at 0.6 GHz (20%) |
|
64 bit support |
|
|
Max. number of processors in configuration |
|
| 2 | 2 |
|
Socket |
|
| FCLGA2011-3 | FCLGA2011-3 |
|
Series |
|
| n/a | Intel Xeon E5 |
|
Release price |
|
| n/a | 3226 $ |
|
Value for money The sum of all the advantages of the device divided by its price. The more%, the better the quality per unit price in comparison with all analogues. |
|
| 93.6%
89.2% (2027.3%) better than |
4.4% |
|
Tire |
|
| n/a | 2 × 9. 6 GT/s |
|
Maximum core temperature |
|
| 83 °C
-7 °C (-7.8%) better than |
90 °C |
|
vPro |
|
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TSX |
|
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TXT Intel Trusted Execution Technology for hardware-based malware protection. For each protected program, the processor allocates its own isolated section of RAM. |
|
|
PCI Express Revision |
|
| 3.0 | 3.0 |
|
Number of PCI-Express lanes |
|
| 40 | 40 |
|
Demand Based Switching |
|
| + | + |
|
PAE |
|
| 46bit | 46 bit |
|
Secure Key |
|
|
OS Guard |
|
| + | + |
|
Flex Memory Access |
|
| — | — |
|
Level 2 cache |
|
| n/a | 5 Mb |
|
Level 3 cache |
|
| n/a | 50 Mb |
|
Power Demand (TDP) The calculated heat output shows the average heat dissipation in load operation, |
|
| n/a | 135 W |
|
EDB |
|
| + | + |
|
Permissible core voltage |
|
| 0.65V–1.3V | no data |
| 16289
3160 (24.1%) better than |
||
| Technologies and Supplementary Instructions | ||
|
Advanced Instructions | Intel® AVX2 | |
|
Turbo Boost |
||
| 2.0 | 2.0 | |
|
Idle States |
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Enhanced SpeedStep (EIST) Technology from Intel that allows the processor to slow down to its lowest frequency to conserve power when the processor is idle. |
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Thermal Monitoring |
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Hyper-Threading Intel hardware technology that allows multiple threads to be processed on each processor core. |
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AES-NI Technology from Intel that speeds up the AES encryption process. |
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| + | + | |
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AVX The presence of AVX instructions improves performance in floating point and processor-intensive operations |
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For server applications, the performance improvement is up to 30%. | RAM parameters | ||
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RAM types0039 | DDR4-1600, DDR4-1866, DDR4-2133, DDR4-2400 | |
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Allowable memory The maximum amount of RAM that can be used with this processor. |
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| 768 GB | 1500 GB
732 GB (95.3%) better than |
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Number of memory channels |
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| 4 | 4 | |
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ECC memory support EEC memory is designed specifically for systems with high requirements for data processing reliability. | ||
