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Intel Core Ultra 5 236V vs Intel Core Ultra 5 228V vs Intel Core Ultra 9 288V

Intel Core Ultra 5 236V

► remove from comparison Intel Core Ultra 5 236V

The Intel Core Ultra 5 236V is a mid-range Lunar Lake family processor. This is an SoC for use in tablets and laptops of the slimmer kind that was unveiled in Autumn 2024. It features 4 new Skymont E-cores and 4 new Lion Cove P-cores running at up to 3.5 GHz and 4.7 GHz respectively, along with the new Arc 130V iGPU and 16 GB of on-package LPDDR5x-8533 RAM. A new 40 TOPS neural engine, Thunderbolt 4 and PCIe 5 SSD support are included as well. A vPro-enabled version of the CPU became available in early 2025.

The only difference between this chip and the Ultra 5 238V is the amount of on-package, non-upgradeable RAM: 16 GB vs 32 GB respectively.

Architecture and Features

Lunar Lake is built using the Foveros technology (stacking several dies on top of each other and next to each other), just like Meteor Lake was. The new chips make use of the enormous BGA2833 socket interface. Of the 8 cores, not a single one is Hyper-Threading-enabled which is the opposite of what AMD currently does with its Zen 5/5c chips.

Intel claims Lion Cove cores bring a 14% IPC improvement over Redwood Cove. For Skymont and Crestmont, the difference is much higher at 68%. Several tweaks and improvements are present here, such as the Low Latency Fabric that is supposed to make small data transfers between cores/caches a lot faster. The 236V's level 3 cache is pretty small as compared to more expensive Ultra 7 2xxV and Ultra 9 2xxV chips at 8 MB vs 12 MB. Elsewhere, the 236V has 4 PCIe 5 and 4 PCIe 4 lanes for connecting various kinds of devices, including NVMe SSDs at up to 15.75 GB/s. Thunderbolt 4 support is onboard by default, as is support for CNVi WiFi 7 + BT 5.4 cards from Intel. The 40 TOPS "AI Boost" neural engine is present along with technologies such as Threat Detection to make AI-enabled applications such as the Windows Defender more powerful.

Intel is predicted to get short of on-package RAM in subsequent CPU generations.

Performance

Based on Geekbench 6.3 Multi test results available online in early Nov 2024, the 236V (and the 238V) delivers around 10,100 points, putting it on equal footing with chips such as AMD's Ryzen 7 7735HS and Apple's M2 which is an OK result for a thin-and-light laptop in late 2024.

Generally speaking, the 226V, 228V, 236V and 238V are slower than the 256V, 258V, 266V, 268V, 288V due to the difference in their last-level cache size (8 MB vs 12 MB) as well as clock speeds. However, the difference in performance between the slowest Lunar Lake chip, the 226V, and the fastest chip, the 288V is fairly small at around 10% to 15%. It depends on the TDP figures of the laptops being pitted against each other more than on anything else.

Graphics

The Arc Graphics 130V has 7 Xe² architecture "cores" running at up to 1,850 MHz, as well as 7 ray tracing units at its disposal. This is a direct successor to the Arc 7 iGPU; it is DirectX 12 Ultimate-enabled and able to HW-decode a long list of video codecs such as h.266 VVC, h.265 HEVC, h.264 AVC, AV1 and VP9. Three SUHD 4320p monitors can be used simultaneously with this iGPU.

Its performance can be vastly different depending on which benchmarks and games one runs. Oftentimes, it isn't much faster than its direct predecessor, the Arc 7. It is clear the 130V isn't fast enough to run most triple-A 2024 games at 1080p. However, it's still more than good enough for an occasional gaming session.

Power consumption

This 2nd generation Core Ultra processor is supposed to consume 17 W when under long-term workloads. The Intel-recommended short-term power limit for the chip sits at 37 W.

Intel Core Ultra 5 228V

► remove from comparison Intel Core Ultra 5 228V

The Intel Core Ultra 5 228V is one of the 2 slowest Lunar Lake family processors as of Nov 2024. This is an SoC for use in tablets and laptops of the slimmer kind that was unveiled in Autumn 2024. It features 4 new Skymont E-cores and 4 new Lion Cove P-cores running at up to 3.5 GHz and 4.5 GHz respectively, along with the new Arc 130V iGPU and 32 GB of on-package LPDDR5x-8533 RAM. A new 40 TOPS neural engine, Thunderbolt 4 and PCIe 5 SSD support are included as well.

The only difference between this chip and the Ultra 5 226V is the amount of on-package, non-replaceable RAM: 32 GB vs 16 GB respectively.

Architecture and Features

Lunar Lake is built using the Foveros technology (stacking several dies on top of each other and next to each other), just like Meteor Lake was. The new chips make use of the enormous BGA2833 socket interface. Of the 8 cores, not a single one is Hyper-Threading-enabled which is the opposite of what AMD currently does with its Zen 5/5c chips.

Intel claims Lion Cove cores bring a 14% IPC improvement over Redwood Cove. For Skymont and Crestmont, the difference is much higher at 68%. Several tweaks and improvements are present here, such as the Low Latency Fabric that is supposed to make small data transfers between cores/caches a lot faster. The 228V's level 3 cache is pretty small as compared to more expensive Ultra 7 2xxV and Ultra 9 2xxV chips at 8 MB vs 12 MB. Elsewhere, the 228V has 4 PCIe 5 and 4 PCIe 4 lanes for connecting various kinds of devices, including NVMe SSDs at up to 15.75 GB/s. Thunderbolt 4 support is onboard by default, as is support for CNVi WiFi 7 + BT 5.4 cards from Intel. The 40 TOPS "AI Boost" neural engine is present along with technologies such as Threat Detection to make AI-enabled applications such as the Windows Defender more powerful.

Intel is predicted to get short of on-package RAM in subsequent CPU generations.

Performance

Our in-house testing of an Acer laptop powered by the 226V which is essentially the same chip revealed the latter to be about as fast as the Ryzen 7 7730U and the Ryzen 7 7735U in multi-threaded tasks which is OK but not mind-blowing for late 2024. It is worth noting that the laptop in question does not use the Intel-recommended 17 W long-term power target; instead, the processor gets 30 W to eat which affects its benchmark scores significantly.

Generally speaking, the 226V, 228V, 236V and 238V are slower than the 256V, 258V, 266V, 268V, 288V due to the difference in their last-level cache size as well as clock speeds. However, the difference in performance between the slowest Lunar Lake chip, the 226V, and the fastest chip, the 288V is fairly small at around 10% to 15%. Exact figures depend on the TDP values of the laptops being pitted against each other more than on anything else.

Graphics

The Arc Graphics 130V has 7 Xe² architecture "cores" running at up to 1,850 MHz, as well as 7 ray tracing units at its disposal. This is a direct successor to the Arc 7 iGPU; it is DirectX 12 Ultimate-enabled and able to HW-decode a long list of video codecs such as h.266 VVC, h.265 HEVC, h.264 AVC, AV1 and VP9. Three SUHD 4320p monitors can be used simultaneously with this iGPU.

Its performance can be vastly different depending on which benchmarks and games one runs. Oftentimes, it isn't much faster than its direct predecessor, the Arc 7. It is clear the 130V isn't fast enough to run most triple-A 2024 games at 1080p. However, it's still more than good enough for an occasional gaming session.

Power consumption

This 2nd generation Core Ultra processor is supposed to consume 17 W when under long-term workloads. The Intel-recommended short-term power limit for the chip sits at 37 W.

Intel Core Ultra 9 288V

► remove from comparison Intel Core Ultra 9 288V

The Intel Core Ultra 7 288V is the fastest Lunar Lake family processor as of Nov 2024 thanks to its higher TDP power target and higher clock speeds. This is an SoC for use in tablets and laptops of the slimmer kind that was unveiled in Autumn 2024. It sports 4 new Skymont E-cores and 4 new Lion Cove P-cores running at up to 3.7 GHz and 5.1 GHz respectively, along with the promising new Arc 140V iGPU and 32 GB of on-package, non-replaceable LPDDR5x-8533 RAM. A new 48 TOPS neural engine, Thunderbolt 4 and PCIe 5 SSD support are included as well. A vPro-enabled version of the CPU became available in early 2025.

Architecture and Features

Lunar Lake is built using the Foveros technology (stacking several dies on top of each other and next to each other), just like Meteor Lake was. The new chips make use of the enormous BGA2833 socket interface. Of the 8 cores, not a single one is Hyper-Threading-enabled which is the opposite of what AMD currently does with its Zen 5/5c chips.

Intel claims Lion Cove cores bring a 14% IPC improvement over Redwood Cove. For Skymont and Crestmont, the difference is much higher at 68%. Several tweaks and improvements are present here, such as the Low Latency Fabric that is supposed to make small data transfers between cores/caches a lot faster. The 288V has a very healthy 12 MB of level 3 cache; elsewhere, it has 4 PCIe 5 and 4 PCIe 4 lanes for connecting various kinds of devices, including NVMe SSDs at up to 15.75 GB/s. Thunderbolt 4 support is onboard by default, as is support for CNVi WiFi 7 + BT 5.4 cards from Intel. The 48 TOPS "AI Boost" neural engine is present along with technologies such as Threat Detection to make AI-enabled applications such as the Windows Defender more powerful.

Intel is predicted to get short of on-package RAM in subsequent CPU generations.

Performance

The 288V should be just a couple of percentage points faster than the Core Ultra 7 165U and Core i7-1360P in multi-threaded tasks.

Generally speaking, the 256V, 258V, 266V, 268V, 288V are faster than the 226V, 228V, 236V and 228V due to the difference in their last-level cache size (8 MB vs 12 MB) as well as clock speeds. However, the difference in performance between the slowest Lunar Lake chip, the 226V, and the fastest chip, the 288V is fairly small at around 10% to 15%. It depends on the TDP figures of the laptops being pitted against each other more than on anything else.

Graphics

The Arc Graphics 140V is here to replace the Arc 8 iGPU. Its 8 Xe² architecture "cores" run at up to 2,050 MHz and it also has 8 ray tracing units at its disposal. The adapter is DirectX 12 Ultimate-enabled and able to HW-decode a long list of popular video codecs such as h.266 VVC, h.265 HEVC, h.264 AVC, AV1 and VP9. Three SUHD 4320p monitors can be used simultaneously with this iGPU.

All 2023 and 2024 games are playable at 1080p on low graphics settings or higher with this iGPU. We got well over 30 fps in Ghost of Tsushima and almost 40 fps in Baldur's Gate 3. This means the Radeon 780M gets left behind while the Radeon 890M reigns supreme.

Power consumption

Unlike the slower 268V, 266V, 258V, 256V, 238V, 236V, 228V and 226V, this 2nd generation Core Ultra processor is supposed to consume 30 W when under long-term workloads rather than 17 W. The Intel-recommended short-term power limit for all of them is identical: 37 W.

ModelIntel Core Ultra 5 236VIntel Core Ultra 5 228VIntel Core Ultra 9 288V
CodenameLunar LakeLunar LakeLunar Lake
SeriesIntel Lunar LakeIntel Lunar LakeIntel Lunar Lake
Series: Lunar Lake Lunar Lake
Intel Core Ultra 9 288V3.3 - 5.1 GHz8 / 8 cores12 MB L3
Intel Core Ultra 7 268V2.2 - 5 GHz8 / 8 cores12 MB L3
Intel Core Ultra 7 266V2.2 - 5 GHz8 / 8 cores12 MB L3
Intel Core Ultra 7 258V2.2 - 4.8 GHz8 / 8 cores12 MB L3
Intel Core Ultra 7 256V2.2 - 4.8 GHz8 / 8 cores12 MB L3
Intel Core Ultra 5 238V2.1 - 4.7 GHz8 / 8 cores8 MB L3
Intel Core Ultra 5 236V « 2.1 - 4.7 GHz8 / 8 cores8 MB L3
Intel Core Ultra 5 228V2.1 - 4.5 GHz8 / 8 cores8 MB L3
Intel Core Ultra 5 226V2.1 - 4.5 GHz8 / 8 cores8 MB L3
Intel Core Ultra 9 288V3.3 - 5.1 GHz8 / 8 cores12 MB L3
Intel Core Ultra 7 268V2.2 - 5 GHz8 / 8 cores12 MB L3
Intel Core Ultra 7 266V2.2 - 5 GHz8 / 8 cores12 MB L3
Intel Core Ultra 7 258V2.2 - 4.8 GHz8 / 8 cores12 MB L3
Intel Core Ultra 7 256V2.2 - 4.8 GHz8 / 8 cores12 MB L3
Intel Core Ultra 5 238V2.1 - 4.7 GHz8 / 8 cores8 MB L3
Intel Core Ultra 5 236V2.1 - 4.7 GHz8 / 8 cores8 MB L3
Intel Core Ultra 5 228V « 2.1 - 4.5 GHz8 / 8 cores8 MB L3
Intel Core Ultra 5 226V2.1 - 4.5 GHz8 / 8 cores8 MB L3
Intel Core Ultra 9 288V « 3.3 - 5.1 GHz8 / 8 cores12 MB L3
Intel Core Ultra 7 268V2.2 - 5 GHz8 / 8 cores12 MB L3
Intel Core Ultra 7 266V2.2 - 5 GHz8 / 8 cores12 MB L3
Intel Core Ultra 7 258V2.2 - 4.8 GHz8 / 8 cores12 MB L3
Intel Core Ultra 7 256V2.2 - 4.8 GHz8 / 8 cores12 MB L3
Intel Core Ultra 5 238V2.1 - 4.7 GHz8 / 8 cores8 MB L3
Intel Core Ultra 5 236V2.1 - 4.7 GHz8 / 8 cores8 MB L3
Intel Core Ultra 5 228V2.1 - 4.5 GHz8 / 8 cores8 MB L3
Intel Core Ultra 5 226V2.1 - 4.5 GHz8 / 8 cores8 MB L3
Clock2100 - 4700 MHz2100 - 4500 MHz3300 - 5100 MHz
L1 Cache1.4 MB1.4 MB1.4 MB
L2 Cache14 MB14 MB14 MB
L3 Cache8 MB8 MB12 MB
Cores / Threads8 / 8
4 x 4.7 GHz Intel Lion Cove P-core
4 x 3.5 GHz Intel Skymont E-core
8 / 8
4 x 4.5 GHz Intel Lion Cove P-core
4 x 3.5 GHz Intel Skymont E-core
8 / 8
4 x 5.1 GHz Intel Lion Cove P-core
4 x 3.7 GHz Intel Skymont E-core
TDP17 Watt17 Watt30 Watt
TDP Turbo PL237 Watt37 Watt37 Watt
Technology3 nm3 nm3 nm
max. Temp.100 °C100 °C100 °C
SocketBGA2833BGA2833BGA2833
FeaturesLPDDR5x-8533 RAM, PCIe 5 + PCIe 4, USB 4, AI Boost NPU (40 TOPS), Thread Director, PSE, Threat Detection, MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AES, AVX, AVX2, AVX-VNNi, FMA3, SHALPDDR5x-8533 RAM, PCIe 5 + PCIe 4, USB 4, AI Boost NPU (40 TOPS), Thread Director, PSE, Threat Detection, MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AES, AVX, AVX2, AVX-VNNi, FMA3, SHALPDDR5x-8533 RAM, PCIe 5 + PCIe 4, USB 4, AI Boost NPU (48 TOPS), Thread Director, PSE, Threat Detection, MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AES, AVX, AVX2, AVX-VNNi, FMA3, SHA
iGPUIntel Arc Graphics 130V ( - 1850 MHz)Intel Arc Graphics 130V ( - 1850 MHz)Intel Arc Graphics 140V ( - 2050 MHz)
Architecturex86x86x86
Announced
Manufacturerark.intel.comark.intel.comark.intel.com

Benchmarks

Performance Rating - CB R15 + R20 + 7-Zip + X265 + Blender + 3DM11 CPU - Core Ultra 5 228V
36.3 pt (60%)
Restrict / Search: Model: Max. age: years
Performance Rating - CB R15 + R20 + 7-Zip + X265 + Blender + 3DM11 CPU - Core Ultra 9 288V
38.5 pt (64%)
Restrict / Search: Model: Max. age: years
Cinebench 2024 - Cinebench 2024 CPU Single Core
112.5 Points (63%)
min: 122     avg: 122.1     median: 122.2 (69%)     max: 122.2 Points
Cinebench 2024 - Cinebench 2024 CPU Multi Core
506 Points (9%)
min: 493     avg: 551     median: 561 (10%)     max: 598 Points
Cinebench R23 - Cinebench R23 Multi Core
9787 Points (9%)
min: 9091     avg: 9814     median: 9867 (9%)     max: 10484 Points
Cinebench R23 - Cinebench R23 Single Core
1755 Points (75%)
min: 1940     avg: 1947     median: 1950 (83%)     max: 1950 Points
Cinebench R20 - Cinebench R20 CPU (Single Core)
677 Points (75%)
min: 645     avg: 697     median: 696.5 (77%)     max: 748 Points
Cinebench R20 - Cinebench R20 CPU (Multi Core)
3820 Points (9%)
min: 2683     avg: 3558     median: 3901 (10%)     max: 4091 Points
Cinebench R15 - Cinebench R15 CPU Multi 64 Bit
1470 Points (9%)
min: 1500     avg: 1542     median: 1541.5 (10%)     max: 1583 Points
Cinebench R15 - Cinebench R15 CPU Single 64 Bit
261 Points (73%)
294 Points (83%)
Cinebench R11.5 - Cinebench R11.5 CPU Multi 64 Bit
18.8 Points (24%)
19.8 Points (26%)
Cinebench R11.5 - Cinebench R11.5 CPU Single 64 Bit
3.3 Points (79%)
3.6 Points (85%)
Cinebench R10 - Cinebench R10 Rend. Single (32bit)
10037 Points (61%)
10697 Points (65%)
Cinebench R10 - Cinebench R10 Rend. Multi (32bit)
41480 Points (30%)
45377 Points (33%)
Cinebench R10 - Cinebench R10 Rend. Multi (64bit)
66113 Points (42%)
Cinebench R10 - Cinebench R10 Rend. Single (64bit)
15516 Points (19%)
wPrime 2.10 - wPrime 2.0 1024m *
285.1 s (3%)
wPrime 2.10 - wPrime 2.0 32m *
9.2 s (2%)
WinRAR - WinRAR 4.0
4978 Points (8%)
8613 Points (14%)
7-Zip 18.03 - 7-Zip 18.03 Multi Thread 4 runs
33631 MIPS (19%)
min: 32105     avg: 33861     median: 33743 (19%)     max: 35851 MIPS
7-Zip 18.03 - 7-Zip 18.03 Single Thread 4 runs
5257 MIPS (62%)
min: 5734     avg: 5905     median: 5945.5 (70%)     max: 5993 MIPS
X264 HD Benchmark 4.0 - x264 Pass 2
91.4 fps (31%)
77.1 fps (26%)
X264 HD Benchmark 4.0 - x264 Pass 1
290.3 fps (67%)
265.5 fps (61%)
HWBOT x265 Benchmark v2.2 - HWBOT x265 4k Preset
11.8 fps (21%)
min: 11.2     avg: 12.2     median: 12.2 (21%)     max: 13.1 fps
TrueCrypt - TrueCrypt Serpent
0.7 GB/s (20%)
0.7 GB/s (21%)
TrueCrypt - TrueCrypt Twofish
1.3 GB/s (22%)
1.4 GB/s (24%)
TrueCrypt - TrueCrypt AES
6.8 GB/s (18%)
7.7 GB/s (20%)
Blender - Blender 3.3 Classroom CPU *
702 Seconds (9%)
min: 541     avg: 611     median: 611 (8%)     max: 681 Seconds
Blender - Blender 2.79 BMW27 CPU *
388 Seconds (3%)
min: 330     avg: 404     median: 441 (3%)     max: 441 Seconds
R Benchmark 2.5 - R Benchmark 2.5 *
0.5 sec (10%)
min: 0.4218     avg: 0.4     median: 0.4 (9%)     max: 0.4503 sec
3DMark 06 - CPU - 3DMark 06 - CPU
11286 Points (24%)
12505 Points (27%)
Super Pi mod 1.5 XS 1M - Super Pi mod 1.5 XS 1M *
8.6 s (2%)
7.7 s (2%)
Super Pi mod 1.5 XS 2M - Super Pi mod 1.5 XS 2M *
19 s (1%)
16.8 s (1%)
Super Pi Mod 1.5 XS 32M - Super Pi mod 1.5 XS 32M *
417 s (2%)
624 s (3%)
3DMark 11 - 3DM11 Performance Physics
13540 Points (33%)
min: 15218     avg: 15328     median: 15327.5 (38%)     max: 15437 Points
3DMark - 3DMark Cloud Gate Physics
min: 14279     avg: 14312     median: 14311.5 (36%)     max: 14344 Points
3DMark - 3DMark Fire Strike Standard Physics
18054 Points (32%)
min: 20839     avg: 21315     median: 21315 (38%)     max: 21791 Points
3DMark - 3DMark Time Spy CPU
5987 Points (25%)
min: 7143     avg: 7639     median: 7638.5 (32%)     max: 8134 Points
Geekbench 6.4 - Geekbench 6.4 Single-Core
min: 2442     avg: 2551     median: 2551 (64%)     max: 2660 Points
min: 2562     avg: 2574     median: 2573.5 (64%)     max: 2585 Points
min: 2797     avg: 2831     median: 2830.5 (71%)     max: 2864 Points
Geekbench 6.4 - Geekbench 6.4 Multi-Core
min: 9498     avg: 9774     median: 9773.5 (38%)     max: 10049 Points
min: 10036     avg: 10175     median: 10174.5 (39%)     max: 10313 Points
min: 10969     avg: 11003     median: 10972 (43%)     max: 11069 Points
Geekbench 5.5 - Geekbench 5.1 - 5.5 64 Bit Single-Core
min: 1811     avg: 1858     median: 1857.5 (73%)     max: 1904 Points
min: 2024     avg: 2069     median: 2069 (81%)     max: 2114 Points
Geekbench 5.5 - Geekbench 5.1 - 5.5 64 Bit Multi-Core
min: 8979     avg: 9015     median: 9015 (16%)     max: 9051 Points
min: 9588     avg: 9610     median: 9609.5 (17%)     max: 9631 Points
Geekbench 5.0 - Geekbench 5.0 64 Bit Single-Core
1840 Points (8%)
Geekbench 5.0 - Geekbench 5.0 64 Bit Multi-Core
9020 Points (28%)
Geekbench 4.4 - Geekbench 4.1 - 4.4 64 Bit Single-Core
8099 Points (81%)
Geekbench 4.4 - Geekbench 4.1 - 4.4 64 Bit Multi-Core
32114 Points (32%)
Mozilla Kraken 1.1 - Kraken 1.1 Total Score *
499 ms (1%)
466 ms (1%)
Sunspider - Sunspider 1.0 Total Score *
54.1 ms (1%)
WebXPRT 4 - WebXPRT 4 Score
266 Points (73%)
min: 282     avg: 312     median: 312 (86%)     max: 342 Points
WebXPRT 3 - WebXPRT 3 Score
288 Points (52%)
min: 297     avg: 359     median: 359 (64%)     max: 421 Points
CrossMark - CrossMark Overall
1570 Points (59%)
min: 1654     avg: 1701     median: 1712 (64%)     max: 1725 Points
Power Consumption - Prime95 Power Consumption - external Monitor *
51.7 Watt (9%)
Power Consumption - Idle Power Consumption - external Monitor *
6.3 Watt (4%)
Power Consumption - Idle Power Consumption 150cd 1min *
4.7 Watt (5%)
6.6 Watt (7%)

Average Benchmarks Intel Core Ultra 5 236V → 100% n=2

Average Benchmarks Intel Core Ultra 5 228V → 102% n=2

Average Benchmarks Intel Core Ultra 9 288V → 112% n=2

- Range of benchmark values for this graphics card
red legend - Average benchmark values for this graphics card
* Smaller numbers mean a higher performance
1 This benchmark is not used for the average calculation

v1.33
log 30. 03:00:11

#0 ran 0s before starting gpusingle class +0s ... 0s

#1 checking url part for id 18009 +0s ... 0s

#2 checking url part for id 17999 +0s ... 0s

#3 checking url part for id 17915 +0s ... 0s

#4 not redirecting to Ajax server +0s ... 0s

#5 did not recreate cache, as it is less than 5 days old! Created at Thu, 29 May 2025 12:10:07 +0200 +0s ... 0s

#6 composed specs +0.011s ... 0.011s

#7 did output specs +0s ... 0.011s

#8 getting avg benchmarks for device 18009 +0.001s ... 0.012s

#9 got single benchmarks 18009 +0.003s ... 0.015s

#10 getting avg benchmarks for device 17999 +0.004s ... 0.019s

#11 got single benchmarks 17999 +0.005s ... 0.024s

#12 getting avg benchmarks for device 17915 +0.003s ... 0.027s

#13 got single benchmarks 17915 +0.005s ... 0.032s

#14 got avg benchmarks for devices +0s ... 0.032s

#15 min, max, avg, median took s +0.041s ... 0.074s

#16 return log +0s ... 0.074s

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> Expert Reviews and News on Laptops, Smartphones and Tech Innovations > Benchmarks / Tech > Processor Comparison - Head 2 Head
Redaktion, 2017-09- 8 (Update: 2023-07- 1)