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Comparison AMD A10-5745M vs Intel Core i7-4700MQ which is better?
Home / processor / AMD A10-5745M VS Intel Core i7-4700MQ
AMD A10-5745M
24%
Devicelist
VS
Intel Core i7-4700MQ
68%
,0003
,0003,0003,000,0003
,0003,0003,0003,000,0003,000,0003,000,0003,000,0003,000,0003,000,0003% We have compared the specifications of AMD A10-5745M and Intel Core i7-4700MQ and compiled a list of advantages and a comparison table for you. Find out which one to choose in 2023.
Advantage AMD A10-5745M
|
Power Demand (TDP) |
|
25 W -22 W (-46.8%) better than vs 47W |
Benefits of Intel Core i7-4700MQ
Comparison winner
|
Threads |
|
8 4 (100%) better than vs 4 |
|
Base frequency |
|
2.4 GHz 0.3 GHz (14.3%) better than vs 2.1 GHz |
|
Maximum frequency |
|
3.4 GHz At 0.5 GHz (17.2%) better than vs 2.9 GHz |
|
Process |
|
22 nm -10 nm (-31. vs 32 nm |
|
Cinebench 10 32-bit single-core |
|
4934 At 2869 (138.9%) better than vs 2065 |
|
Cinebench 10 32-bit multi-core |
|
19019 13539 (247.1%) better than vs 5480 |
|
Cinebench 11.5 64-bit single-core |
|
132 68 (106.3%) better than vs 64 |
|
Cinebench 15 64-bit multi-core |
|
631 454 (256.5%) better than vs 177 |
|
WinRAR 4.0 |
|
4266 At 2681 (169.1%) better than vs 1585 |
|
x264 encoding pass 1 |
|
148 86 (138. vs 62 |
|
x264 encoding pass 2 |
|
39 26 (200%) better than vs 13 |
|
TrueCrypt AES |
|
4 3 (300%) better than vs 1 |
|
3DMark06 CPU |
|
6872 4127 (150.3%) better than vs 2745 |
|
Geekbench 2 |
|
10614 6355 (149.2%) better than vs 4259 |
|
Geekbench 3 32-bit single-core |
|
3234 1758 (119.1%) better than vs 1476 |
|
Geekbench 3 32-bit multi-core |
|
12014 8290 (222. vs 3724 |
2%) better than 
7%) better than 
6%) better than | General information | |
|
Type |
|
| For laptops | For laptops |
|
Architecture code name |
|
| Richland | Haswell |
|
Cores A large number of cores improves performance in multi-threaded applications. |
|
| 4 | 4 |
|
Threads More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases). |
|
| 4 | 8
4 (100%) better than |
|
Base frequency |
|
| 2.1GHz | 2. 4 GHz
Better than at 0.3 GHz (14.3%) |
|
Process |
|
| 32 nm | 22 nm
-10 nm (-31.2%) better than |
|
Chip size |
|
| 246 mm2 | 177 mm2 |
|
Number of transistors |
|
| 1 million | 1 million |
|
Maximum frequency Faster clocked processors perform more calculations per second and thus provide better performance. |
|
| 2.9GHz | 3.4 GHz
Better than at 0.5 GHz (17.2%) |
|
Support 64 bit |
|
|
Max. number of processors in configuration |
|
| 1 | 1 |
|
Socket |
|
| FP2 | FCPGA946 |
|
AMD-V |
|
|
Series |
|
| AMD A-Series | Intel Core i7 |
|
Release price |
|
| n/a | 288 $ |
|
Value for money The sum of all the advantages of the device divided by its price. |
|
| n/a | 77% |
|
Maximum core temperature |
|
| n/a | 100 °C |
|
vPro |
|
|
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 |
|
| n/a | 3 |
|
Number of PCI-Express lanes |
|
| n/a | 16 |
|
Secure Key |
|
|
Identity Protection |
|
| n/a | + |
|
Quick Sync |
|
| n/a | + |
|
eDP |
|
| n/a | + |
|
HDMI |
|
| n/a | + |
|
Maximum resolution via VGA |
|
| n/a | 2880×1800@60Hz |
|
FMA |
|
| + | no data |
|
FDI |
|
| n/a | + |
|
Anti-Theft |
|
| n/a | + |
|
VGA |
|
| n/a | + |
|
Level 1 Cache The fastest level of cache that works directly with the core. |
|
| 128 KB (per core) | 64K (per core) |
|
Level 2 cache |
|
| 1MB (per core) | 256K (per core) |
|
Level 3 cache |
|
| n/a | 6 MB (total) |
|
Maximum case temperature (TCase) |
|
| 71 °C | 100 °C |
|
Power Demand (TDP) The calculated heat output shows the average heat dissipation in load operation, |
|
| 25W
-22 W (-46.8%) better than |
47W |
|
EDB |
|
| n/a | + |
|
Video memory size |
|
| n/a | 2 GB |
|
InTru 3D |
|
| no data | + |
|
DisplayPort |
|
| n/a | + |
The more%, the better the quality per unit price in comparison with all analogues. 
The larger the cache, the better the performance. | 5315 | ||
|
Cinebench 10 32-bit single-core |
||
| 2065 | 4934
2869 (138. |
|
|
Cinebench 10 32-bit multi-core |
||
| 5480 | 19019
13539 (247.1%) better than |
|
|
Cinebench 11.5 64-bit single-core |
||
| 64 | 132
68 (106.3%) better than |
|
|
Cinebench 15 64-bit multi-core |
||
| 177 | 631
454 (256.5%) better than |
|
|
WinRAR 4.0 |
||
| 1585 | 4266
2681 (169.1%) better than |
|
|
x264 encoding pass 1 |
||
| 62 | 148
86 (138.7%) better than |
|
|
x264 encoding pass 2 |
||
| 13 | 39
26 (200%) better than |
|
|
TrueCrypt AES |
||
| 1 | 4
3 (300%) better than |
|
|
3DMark06 CPU |
||
| 2745 | 6872
4127 (150. |
|
|
Geekbench 2 |
||
| 4259 | 10614
6355 (149.2%) better than |
|
|
Geekbench 3 32-bit single-core |
||
| 1476 | 3234
1758 (119.1%) better than |
|
|
Geekbench 3 32-bit multi-core |
||
| 3724 | 12014
8290 (222.6%) better than |
|
|
3DMark Fire Strike Physics |
||
| n/a | 6010 | |
9%) better than 
3%) better than | Technology and additional instructions | |
|
Extended instructions |
|
| n/a | Intel® SSE4.1, Intel® SSE4.2, Intel® AVX2 |
|
Turbo Boost |
|
| n/a | 2.0 |
|
Idle States |
|
|
Enhanced SpeedStep (EIST) Technology from Intel that allows the processor to slow down to a minimum frequency to save power when the processor is idle. |
|
|
Thermal Monitoring |
|
|
Hyper-Threading Intel hardware technology that allows multiple threads to be processed on each processor core. For server applications, the performance improvement is up to 30%. |
|
|
AES-NI Technology from Intel that speeds up the AES encryption process. |
|
| + | + |
|
AVX The presence of AVX instructions improves performance in floating point and processor-intensive operations |
|
| RAM parameters | ||
|
RAM types |
DDR3L-1333, DDR3L-1600 | |
|
Allowable memory The maximum amount of RAM that can be used with this processor. |
||
| n/a | 32 GB | |
|
Number of memory channels |
||
| n/a | 2 | |
| Virtualization Technologies | |
|
VT-x |
|
|
EPT |
|
|
VT-d Intel virtualization technology allows you to forward devices on the PCI bus to the guest operating system so that it can work with them using its standard tools. |
|
| Integrated graphics | |
|
Max GPU clock |
|
| n/a | 1.15 GHz |
|
Maximum number of monitors |
|
| n/a | 3 |
|
Clear Video HD |
|
|
Video core The presence of the video core allows you to use your computer without using a video card. |
|
| + | + |
|
Maximum resolution via HDMI 1.4 |
|
| n/a | 3840×2160@60Hz |
|
Maximum resolution via DisplayPort |
|
| n/a | 3840×2160@60Hz |
|
DirectX |
|
| n/a | 11.2/12 |
|
OpenGL |
|
| n/a | 4.3 |
Comparison AMD A10-5745M vs Intel Core i7-3610QM which is better?
Home / processor / AMD A10-5745M VS Intel Core i7-3610QM
AMD A10-5745M
24%
Devicelist
VS
Intel Core I7-3610QM
48% 9000,000,0003% 9000,000,000,000,000,000,000,000,000 48% We have compared the specifications of AMD A10-5745M and Intel Core i7-3610QM and compiled a list of advantages and a comparison table for you. Find out which one to choose in 2023.
AMD A10-5745M Advantage
|
Power consumption (TDP) |
|
25 W -20 W (-44. vs 45 W |
4%) better than Benefits of Intel Core i7-3610QM
Comparison winner
|
Threads |
|
8 4 (100%) better than vs 4 |
|
Base frequency |
|
2.3 GHz 0.2 GHz (9.5%) better than vs 2.1 GHz |
|
Maximum frequency |
|
3.3 GHz At 0.4 GHz (13.8%) better than vs 2.9GHz |
|
Process |
|
22 nm -10 nm (-31.2%) better than vs 32 nm |
|
Cinebench 10 32-bit single-core |
|
4420 2355 (114%) better than vs 2065 |
|
Cinebench 10 32-bit multi-core |
|
17230 11750 (214. vs 5480 |
|
Cinebench 11.5 64-bit single-core |
|
4313 4249 (6639.1%) better than vs 64 |
|
x264 encoding pass 1 |
|
135 73 (117.7%) better than vs 62 |
|
x264 encoding pass 2 |
|
34 21 (161.5%) better than vs 13 |
|
TrueCrypt AES |
|
3 2 (200%) better than vs 1 |
|
3DMark06 CPU |
|
6078 3333 (121.4%) better than vs 2745 |
|
Geekbench 2 |
|
9493 5234 (122. vs 4259 |
4%) better than 
9%) better than | General information | |
|
Type |
|
| For laptops | For laptops |
|
Architecture code name |
|
| Richland | Ivy Bridge |
|
Cores A large number of cores improves performance in multi-threaded applications. |
|
| 4 | 4 |
|
Threads More threads help the cores process information more efficiently. Real performance will be noticeable in very specific tasks (video editing, databases). |
|
| 4 | 8
4 (100%) better than |
|
Base frequency |
|
| 2.1GHz | 2. 3 GHz
Better than at 0.2 GHz (9.5%) |
|
Process |
|
| 32 nm | 22 nm
-10 nm (-31.2%) better than |
|
Chip size |
|
| 246 mm2 | 160 mm2 |
|
Number of transistors |
|
| 1 million | 1 million |
|
Maximum frequency Faster clocked processors perform more calculations per second and thus provide better performance. |
|
| 2.9GHz | 3.3 GHz
Better than at 0.4 GHz (13.8%) |
|
Support 64 bit |
|
|
Max. number of processors in configuration |
|
| 1 | 1 |
|
Socket |
|
| FP2 | FCPGA988 |
|
AMD-V |
|
|
Series |
|
| AMD A-Series | Intel Core i7 |
|
Release price |
|
| n/a | 378 $ |
|
Value for money The sum of all the advantages of the device divided by its price. |
|
| n/a | 67.7% |
|
Maximum core temperature |
|
| n/a | 105 °C |
|
vPro |
|
|
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 |
|
| n/a | 3.0 |
|
Number of PCI-Express lanes |
|
| n/a | 16 |
|
Demand Based Switching |
|
| n/a | — |
|
Secure Key |
|
|
Identity Protection |
|
| n/a | + |
|
Flex Memory Access |
|
| n/a | + |
|
Quick Sync |
|
| n/a | + |
|
eDP |
|
| n/a | + |
|
HDMI |
|
| n/a | + |
|
FMA |
|
| + | no data |
|
My WiFi |
|
| n/a | + |
|
FDI |
|
| no data | + |
|
Anti-Theft |
|
| n/a | + |
|
Fast Memory Access |
|
| n/a | + |
|
CRT |
|
| n/a | + |
|
Level 1 cache The fastest level of cache that works directly with the kernel. |
|
| 128 KB (per core) | 64K (per core) |
|
Level 2 cache |
|
| 1MB (per core) | 256K (per core) |
|
Level 3 cache |
|
| n/a | 6 MB (total) |
|
Maximum case temperature (TCase) |
|
| 71 °C | no data |
|
Power Demand (TDP) The calculated heat output shows the average heat dissipation in load operation, |
|
| 25W
-20 W (-44.4%) better than |
45 W |
|
EDB |
|
| n/a | + |
|
InTru 3D |
|
| n/a | + |
|
DisplayPort |
|
| n/a | + |
|
SDVO |
|
| n/a | + |
The more%, the better the quality per unit price in comparison with all analogues. 
The larger the cache, the better the performance. | 5304 | ||
|
Cinebench 10 32-bit single-core |
||
| 2065 | 4420
2355 (114%) better than |
|
|
Cinebench 10 32-bit multi-core |
||
| 5480 | 17230
11750 (214. |
|
|
Cinebench 11.5 64-bit single-core |
||
| 64 | 4313
4249 (6639.1%) better than |
|
|
Cinebench 15 64-bit multi-core |
||
| 177 | no data | |
|
WinRAR 4.0 |
||
| 1585 | no data | |
|
x264 encoding pass 1 |
||
| 62 | 135
73 (117.7%) better than |
|
|
x264 encoding pass 2 |
||
| 13 | 34
21 (161.5%) better than |
|
|
TrueCrypt AES |
||
| 1 | 3
2 (200%) better than |
|
|
3DMark06 CPU |
||
| 2745 | 6078
3333 (121.4%) better than |
|
|
Geekbench 2 |
||
| 4259 | 9493
5234 (122. |
|
|
Geekbench 3 32-bit single-core |
||
| 1476 | no data | |
|
Geekbench 3 32-bit multi-core |
||
| 3724 | no data | |
|
3DMark Fire Strike Physics |
||
| n/a | 5390 | |
4%) better than 
9%) better than | Technology and additional instructions | |
|
Extended instructions |
|
| n/a | Intel® AVX |
|
Turbo Boost |
|
| n/a | 2.0 |
|
Idle States |
|
|
Enhanced SpeedStep (EIST) Technology from Intel that allows the processor to slow down to a minimum frequency to save power when the processor is idle. |
|
|
Thermal Monitoring |
|
|
Hyper-Threading Intel hardware technology that allows multiple threads to be processed on each processor core. |
|
|
AES-NI Technology from Intel that speeds up the AES encryption process. |
|
| + | + |
|
AVX The presence of AVX instructions improves performance in floating point and processor-intensive operations |
|
For server applications, the performance improvement is up to 30%. | RAM options | |
|
RAM types |
|
| DDR3 Dual channel |
DDR3/L/-RS 1333/1600 |
|
Allowable memory The maximum amount of RAM that can be used with this processor. |
|
| n/a | 32 GB |
|
Number of memory channels |
|
| n/a | 2 |
| Virtualization technologies | ||
|
EPT |
||
|
VT-d Virtualization technology from Intel allows you to forward devices on the PCI bus to the guest operating system so that it can work with them using its standard tools. | ||
