Intel Core i5-2537M vs Intel Core i5-2415M vs Intel Core i5-2450M

Intel Core i5-2537M

► remove Intel 2537M

The Intel Core i5-2537M is power efficient ULV (Ultra Low Voltage) processor for thin and light laptops. The base frequency of 1.4 GHz is relatively low, but due to Turbo Boost 2.0, the CPU may clock up to 2.3 GHz (one core loaded, 2GHz with both cores loaded). However, this is depending on the cooling and power consumption of the laptop. Due to HyperThreading, the i5-2537M is able to handle 4 threads in parallel.

Sandy Bridge is the evolutionary successor of the Arrandale architecture. The most noteable improvements is the improved Turbo 2.0 and the integration of the graphics card into the 32nm CPU core. 

The integrated Intel HD Graphics 3000 clocked at 350 or 900MHz (Turbo Boost). Due to the slower clock rate, compared to other HD Graphics 3000 (usually 650-1100/1300MHz in non LV processors), the performance should be noticeable lower.

The performance of the CPU should be a bit higher than a similar clocked Arrandale Core i5. Therefore, the performance should be similar to a Core i7-680UM / Core i3-330M.

The TDP of 17W (includes the integrated GPU and memory controller) allows the use of the 2537M CPU in small subnotebooks.

Intel Core i5-2415M

► remove Intel 2415M

The Intel Core i5-2415M is a fast dual core processor at the time of introduction in Q1 2011. It is based on the Sandy Bridge architecture and offers Hyperthreading to handle 4 threads at once (for a better usage of the pipeline). Compared to the similar Core i5-2410M, the 2415M is manufactured with a smaller package and only for the BGA1023 socket. In difference to the faster Core i7, the i5 offers a smaller last level cache of 3MB. The base clock speed is 2.3 GHz but due to Turbo Boost it can reach 2.6 GHz (2 cores active) and 2.9 GHz (1 core active). Compared to the 2510M, the 2415M does not support AES, VT-d, and Trusted Execution functions.

Sandy Bridge is the evolutionary successor of the Arrandale architecture. The most noteable improvements is the improved Turbo 2.0 and the integration of the graphics card into the 32nm CPU core. 

The i5-2415M offers an integrated graphics card ( Intel HD Graphics 3000) which is clearly faster then the older Intel HD Graphics in the Arrandale CPUs. As the new GPU is included in the CPU, it is also manufactured in 32nm and shares the fast level 3 cache with the CPU cores (using a new ring bus). In the 2415M it is clocked from  650-1200MHz (with Turbo Boost). The faster Sandy Bridge CPUs are clocked up to 1300 MHz (like the i5-2520M).

Furthermore, an improved dual-channel DDR3 memory controller is included on the CPU die that is used by the CPU and GPU part.

Due to the improved architecture and the new Turbo Boost 2.0, the average performance of the Core i5-2415M is higher than a similar clocked Arrandale Core i5. In our benchmarks, the 2415M was able to beat the fast Intel Core i5-560M with 2.7-3.2GHz and is therefore suited for even demanding tasks. Detailed benchmarks can be found below and on the detail page of the similar Core i5-2410M.

The 35W TDP rating includes the integrated GPU and memory controller.

Intel Core i5-2450M

► remove Intel 2450M

The Intel Core i5-2450M is a fast dual core processor that first appeared in Dell laptops in 11/2011. It is based on the Sandy Bridge architecture and offers Hyperthreading to handle 4 threads at once (for a better usage of the pipeline). Compared to the faster Core i7, the i5 offers a smaller last level cache of 3MB. The base clock speed is 2.5 GHz but due to Turbo Boost it can reach 2.8 GHz (2 cores active) and 3.1 GHz (1 core active). Compared to the 2510M, the 2450M does not support VT-d and Trusted Execution functions. However, the integrated gpu offers a higher Turbo Boost clock rate.

Sandy Bridge is the evolutionary successor of the Arrandale architecture. The most noteable improvements is the improved Turbo Boost 2.0 and the integration of the graphics card into the 32nm CPU core. 

The i5-2450M offers an integrated graphics card (Intel HD Graphics 3000) which is clearly faster then the older Intel HD Graphics in the Arrandale CPUs. As the new GPU is included in the CPU, it is also manufactured in 32nm and shares the fast level 3 cache with the CPU cores (using a new ring bus). In the 2435M it is clocked with  650 or 1300MHz (with Turbo Boost).

Furthermore, an improved dual-channel DDR3 memory controller is included on the CPU die that is used by the CPU and GPU part.

Due to the improved architecture and the new Turbo Boost 2.0, the average performance of the Core i5-2450M is higher than a similar clocked Arrandale Core i5. Looking at benchmarks of slower clocked Core i5 CPUs, the i5-2450M should position itself slightly above the old Core i5-620M and is therefore suited even for demanding tasks.

The 35W TDP rating includes the integrated GPU and memory controller.

Intel Core i5-2537MIntel Core i5-2415MIntel Core i5-2450M
Intel Core i5Intel Core i5Intel Core i5
Sandy BridgeSandy BridgeSandy Bridge
: Core i5 Sandy Bridge
Intel Core i5-2540M2600 - 3300 MHz2 / 43 MB
Intel Core i5-2520M2500 - 3200 MHz2 / 43 MB
Intel Core i5-2450M2500 - 3100 MHz2 / 43 MB
Intel Core i5-2435M2400 - 3000 MHz2 / 43 MB
Intel Core i5-2430M2400 - 3000 MHz2 / 43 MB
Intel Core i5-2415M2300 - 2900 MHz2 / 43 MB
Intel Core i5-2410M2300 - 2900 MHz2 / 43 MB
Intel Core i5-2557M1700 - 2700 MHz2 / 43 MB
Intel Core i5-2467M1600 - 2300 MHz2 / 43 MB
» Intel Core i5-2537M1400 - 2300 MHz2 / 43 MB
Intel Core i5-2540M2600 - 3300 MHz2 / 43 MB
Intel Core i5-2520M2500 - 3200 MHz2 / 43 MB
Intel Core i5-2450M2500 - 3100 MHz2 / 43 MB
Intel Core i5-2435M2400 - 3000 MHz2 / 43 MB
Intel Core i5-2430M2400 - 3000 MHz2 / 43 MB
» Intel Core i5-2415M2300 - 2900 MHz2 / 43 MB
Intel Core i5-2410M2300 - 2900 MHz2 / 43 MB
Intel Core i5-2557M1700 - 2700 MHz2 / 43 MB
Intel Core i5-2467M1600 - 2300 MHz2 / 43 MB
Intel Core i5-2537M1400 - 2300 MHz2 / 43 MB
Intel Core i5-2540M2600 - 3300 MHz2 / 43 MB
Intel Core i5-2520M2500 - 3200 MHz2 / 43 MB
» Intel Core i5-2450M2500 - 3100 MHz2 / 43 MB
Intel Core i5-2435M2400 - 3000 MHz2 / 43 MB
Intel Core i5-2430M2400 - 3000 MHz2 / 43 MB
Intel Core i5-2415M2300 - 2900 MHz2 / 43 MB
Intel Core i5-2410M2300 - 2900 MHz2 / 43 MB
Intel Core i5-2557M1700 - 2700 MHz2 / 43 MB
Intel Core i5-2467M1600 - 2300 MHz2 / 43 MB
Intel Core i5-2537M1400 - 2300 MHz2 / 43 MB
1400 - 2300 MHz2300 - 2900 MHz2500 - 3100 MHz
128 KB128 KB128 KB
512 KB512 KB512 KB
3 MB3 MB3 MB
2 / 42 / 42 / 4
17 35 35
624 624 624
32 32 32
149 mm2149 mm2149 mm2
100 °C100 °C100 °C
BGA1023BGA1023PPGA988
HD Graphics 3000 (350-900MHz), DDR3-1066/1333 Memory Controller (max 8GB), HyperThreading, AVX, Quick Sync, VirtualizationHD Graphics 3000 (650-1200MHz), DDR3-1066/1333 Memory Controller (max 8GB), HyperThreading, AVX, Quick Sync, VirtualizationHD Graphics 3000, DDR3-1066/1333 Memory Controller (max 8GB), HyperThreading, AVX, Quick Sync, Virtualization
iGPUIntel HD Graphics 3000 (350 - 900 MHz)Intel HD Graphics 3000 (650 - 1300 MHz)Intel HD Graphics 3000 (650 - 1300 MHz)
$250 U.S.$225 U.S.
Intel Core i5 2537MIntel Core i5 2450M

Cinebench R11.5 - CPU Multi 64Bit
1.7 Points (5%)
2.4 Points (7%)
2.8 Points (8%)
Cinebench R11.5 - CPU Single 64Bit
0.9 Points (45%)
1.2 Points (60%)
Cinebench R10 - Rendering Single 32Bit
min: 2808     avg: 2814     median: 2814 (31%)     max: 2820 Points
3666 Points (40%)
min: 3830     avg: 3912.4     median: 3918 (43%)     max: 3989 Points
Cinebench R10 - Rendering Multiple CPUs 32Bit
min: 4157     avg: 5329.7     median: 5903 (12%)     max: 5929 Points
7444 Points (15%)
min: 8273     avg: 8506.9     median: 8542 (17%)     max: 8619 Points
Cinebench R10 - Rendering Multiple CPUs 64Bit
min: 5127     avg: 6200.5     median: 6200 (8%)     max: 7274 Points
9156 Points (12%)
min: 9868     avg: 10292     median: 10318 (14%)     max: 10518 Points
Cinebench R10 - Rendering Single CPUs 64Bit
min: 3577     avg: 3608.5     median: 3608 (35%)     max: 3640 Points
4607 Points (45%)
min: 4664     avg: 4835.3     median: 4847 (47%)     max: 4922 Points
wPrime 2.0x - 1024m *
min: 791     avg: 974.9     median: 974 (12%)     max: 1158 seconds
632 seconds (7%)
min: 546     avg: 604.4     median: 606 (7%)     max: 655 seconds
wPrime 2.0x - 32m *
min: 24     avg: 24.9     median: 24 (5%)     max: 25 seconds
19 seconds (4%)
min: 17     avg: 18.9     median: 19 (4%)     max: 19 seconds
WinRAR - Result
min: 2529     avg: 2848.5     median: 2848 (33%)     max: 3168 KB/s
X264 HD Benchmark 4.0 - Pass 2
min: 14     avg: 14.6     median: 14 (0%)     max: 15 fps
X264 HD Benchmark 4.0 - Pass 1
min: 76     avg: 78.6     median: 78 (29%)     max: 80 fps
TrueCrypt - Serpent Mean 100MB
0.1 GB/s (13%)
TrueCrypt - Twofish Mean 100MB
0.2 GB/s (7%)
TrueCrypt - AES Mean 100MB
1.4 GB/s (7%)
3DMark 06 - CPU
min: 1696     avg: 2182.3     median: 2400 (16%)     max: 2451 Points
2887 Points (19%)
min: 2830     avg: 3383.6     median: 3441 (23%)     max: 3475 Points
Super Pi mod 1.5 XS 1M *
17.2 Seconds (4%)
13 Seconds (3%)
min: 12     avg: 13     median: 13 (3%)     max: 13 Seconds
Super Pi mod 1.5 XS 2M *
39 Seconds (2%)
31 Seconds (1%)
min: 29     avg: 29.6     median: 29 (1%)     max: 30 Seconds
Super Pi Mod 1.5 XS 32M *
993 Seconds (4%)
735 Seconds (3%)
min: 671     avg: 689     median: 687 (3%)     max: 706 Seconds
SiSoft Sandra Dhrystone (MIPS)
46300 MIPS (22%)
min: 49000     avg: 53207.5     median: 52850 (25%)     max: 58130 MIPS
SiSoft Sandra Whetstone (MFLOPS)
23500 MFLOPS (18%)
9430 MFLOPS (7%)
min: 34340     avg: 34720     median: 34490 (26%)     max: 35560 MFLOPS
Windows 7 Experience Index - Processor
min: 3     avg: 5     median: 5 (71%)     max: 6 points
6.9 points (99%)
7 points (100%)
3DMark Vantage - P CPU no PhysX 1280x1024
20010 Points (28%)
min: 9078     avg: 9278.1     median: 9300 (13%)     max: 9384 Points
3DMark 11 - Performance Physics 1280x720
2803 points (15%)
min: 2948     avg: 3529.8     median: 3521 (18%)     max: 3886 points

Average Benchmarks Intel Core i5-2537M → 100%

Average Benchmarks Intel Core i5-2415M → 116%

Average Benchmarks Intel Core i5-2450M → 120%

-
-
* Smaller numbers mean a higher performance
1 This benchmark is not used for the average calculation

v1.8.1a
Please share our article, every link counts!
> Notebook / Laptop Reviews and News > Benchmarks / Tech > Processor Comparison - Head 2 Head
Redaktion, 2017-09- 8 (Update: 2017-09-11)