Notebookcheck Logo

Marvell PXA986 vs HiSilicon Kirin 910T vs NXP i.MX 6SLL

Marvell PXA986

► remove from comparison Marvell Technology Group PXA986

Der Marvell PXA986 ist ein ARM basierter Dual-Core SoC für Smartphones und Tablets. Er bietet zwei Cortex-A9 Kerne mit meist 1.2 GHz Takt, eine Vivante GC1000 Grafikkarte, einen Video-Prozessor für 720p30 Wiedergabe von H.263, H.264 BP und MPEG4- SP und ein WCDMA+HSDPA Modem.

HiSilicon Kirin 910T

► remove from comparison

Der HiSilicon Kirin 910T ist ein ARM-basierter Quad-Core-SoC für (Android-)Smartphones und Tablets, der im ersten Halbjahr 2014 zusammen mit dem Huawei Ascend P7 vorgestellt wurde. Neben vier Cortex-A9-Kernen (max. 1,8 GHz) integriert der Chip auch eine Mali-450 MP4 Grafikeinheit, einen Single-Channel LPDDR3-1600-Speichercontroller sowie ein LTE Cat. 4 Modem.

Die CPU-Performance ordnet sich dank der hochtaktenden Cortex-A9-Kerne im oberen Mittelfeld ein, sodass der 910T in etwa mit einem Qualcomm Snapdragon 600 (1,7 - 1,9 GHz Krait) vergleichbar ist. Dies genügt, um Browsing und andere typische Android-Anwendungen zügig zu bewältigen.

Die mit 533 MHz taktende Mali-450 MP4 sorgt für eine ansprechende Grafikleistung auf dem Niveau der Qualcomm Adreno 320. Damit werden auch anspruchsvolle Android-Spiele in hoher Auflösung zumeist flüssig dargestellt.

Trotz Fertigung in einem aktuellen 28-Nanometer-Prozess (TSMC HPM) dürfte die Leistungsaufnahme des Kirin 910T durchschnittlich bis hoch ausfallen, was auf die vergleichsweise hohen Taktraten zurückzuführen ist. Demzufolge kann der SoC in mittelgroßen Smartphones, aber auch Tablets eingesetzt werden.

NXP i.MX 6SLL

► remove from comparison  i.MX 6SLL

Der NXP i.MX 6SLL oder i.MX6SLL (i.MX 6 Series, MCIMX6V7DVN10AB Part Number) ist ein low-End Single-Core-Chip für e-Reader. Er integriert einen einzelnen ARM Cortex-A9 Kern mit bis zu 1 GHz Taktfrequenz und einen Grafikkarte mit 2D Beschleunigung namens Pixel Processor PXP (inkl. E-INK Display Controller EPDC mit bis zu 2332x1650 5 Bit Graustufen-Support). Der integrierte Speichercontroller kann laut NXP mit 400 MHz LPDDR2 und LPDDR3 umgehen (32 Bit Interface). Festspeicher kann durch die drei Verbindungen mit eMMC 5.0 oder SD 3.0 angebunden werden. Ausserdem können 2x USB 2.0 OTG mit PHY nach aussen geführt werden. WLAN, Bluetooth, GPS und Camera Sensoren müssen durch externe Chips angebunden werden.

Der i.MX 6SLL ist Pin-kompatibel mit dem i.MX 6SoloLite.

ModelMarvell PXA986HiSilicon Kirin 910TNXP i.MX 6SLL
SeriesMarvell Technology Group
CodenameCortex-A9Cortex-A9Cortex-A9
Serie: Cortex-A9
HiSilicon Kirin 910T1.8 GHz4 / 4 Cortex-A9
Rockchip RK31881.8 GHz4 / 4 Cortex-A9
HiSilicon Kirin 9101.6 GHz4 / 4 Cortex-A9
Renesas MP52321.5 GHz2 / 2 Cortex-A9
Broadcom BCM21664T1.2 GHz2 / 2 Cortex-A9
» Marvell PXA9861.2 GHz2 / 2 Cortex-A9
NXP i.MX 6SLL1 GHz1 / 1 Cortex-A9
WonderMedia PRIZM WM89501 GHz1 / 1 Cortex-A9
» HiSilicon Kirin 910T1.8 GHz4 / 4 Cortex-A9
Rockchip RK31881.8 GHz4 / 4 Cortex-A9
HiSilicon Kirin 9101.6 GHz4 / 4 Cortex-A9
Renesas MP52321.5 GHz2 / 2 Cortex-A9
Broadcom BCM21664T1.2 GHz2 / 2 Cortex-A9
Marvell PXA9861.2 GHz2 / 2 Cortex-A9
NXP i.MX 6SLL1 GHz1 / 1 Cortex-A9
WonderMedia PRIZM WM89501 GHz1 / 1 Cortex-A9
HiSilicon Kirin 910T1.8 GHz4 / 4 Cortex-A9
Rockchip RK31881.8 GHz4 / 4 Cortex-A9
HiSilicon Kirin 9101.6 GHz4 / 4 Cortex-A9
Renesas MP52321.5 GHz2 / 2 Cortex-A9
Broadcom BCM21664T1.2 GHz2 / 2 Cortex-A9
Marvell PXA9861.2 GHz2 / 2 Cortex-A9
» NXP i.MX 6SLL1 GHz1 / 1 Cortex-A9
WonderMedia PRIZM WM89501 GHz1 / 1 Cortex-A9
Clock1200 MHz1800 MHz1000 MHz
Cores / Threads2 / 24 / 41 / 1
Technology45 nm28 nm40 nm
ArchitectureARMARMARM
Announced
ManufacturerMarvell Technology Group PXA986 i.MX 6SLL
FeaturesARMv7, Mali-450 MP4 (533 MHz), LTE (Cat. 4), Single-Channel LPDDR3-1600 (6.4 GB/s)32-Bit DRAM Controller 400 MHz LPDDR2/LPDDR3, E-INK Display Controller, 2D Graphics Acceleration, eMMC 5.0, USB 2.0 OTG
L1 Cache64 KB
L2 Cache256 KB
iGPUNXP PXP

Benchmarks

3DMark - 3DMark Ice Storm Physics
100%
1 PXA986 +
min: 2623     avg: 2874     median: 2740 (2%)     max: 3258 Points
11572 Points (7%)
3DMark - 3DMark Ice Storm Extreme Physics
100%
1 PXA986 +
min: 2709     avg: 2985     median: 2985 (2%)     max: 3261 Points
11485 Points (10%)
3DMark - 3DMark Ice Storm Unlimited Physics
100%
1 PXA986 +
3675 Points (3%)
13330 Points (11%)
Geekbench 3 - Geekbench 3 32 Bit Multi-Core
100%
1 PXA986 +
min: 631     avg: 647     median: 646.5 (1%)     max: 662 Points
1796 Points (3%)
Geekbench 3 - Geekbench 3 32 Bit Single-Core
100%
1 PXA986 +
min: 376     avg: 379.5     median: 379.5 (8%)     max: 383 Points
599 Points (12%)
Geekbench 2 - 32 Bit - Geekbench Stream
100%
1 PXA986 +
min: 437     avg: 439.5     median: 439.5 (4%)     max: 442 Points
Geekbench 2 - 32 Bit - Geekbench Memory
100%
1 PXA986 +
min: 1337     avg: 1448     median: 1448 (13%)     max: 1559 Points
Geekbench 2 - 32 Bit - Geekbench Floating Point
100%
1 PXA986 +
min: 1275     avg: 1284     median: 1284 (3%)     max: 1293 Points
Geekbench 2 - 32 Bit - Geekbench Integer
100%
1 PXA986 +
min: 709     avg: 720     median: 720 (1%)     max: 731 Points
Geekbench 2 - 32 Bit - Geekbench Total Score
100%
1 PXA986 +
min: 1005     avg: 1035     median: 1034.5 (3%)     max: 1064 Points
Linpack Android / IOS - Linpack Multi Thread
100%
1 PXA986 +
min: 73.7     avg: 74.3     median: 74 (3%)     max: 75.3 MFLOPS
254 MFLOPS (9%)
Linpack Android / IOS - Linpack Single Thread
100%
1 PXA986 +
min: 39.83     avg: 41.6     median: 41.4 (4%)     max: 43.69 MFLOPS
83.2 MFLOPS (8%)
Mozilla Kraken 1.1 - Kraken 1.1 Total Score *
100%
1 PXA986 +
min: 23941     avg: 25315     median: 25315 (30%)     max: 26689 ms
16135 ms (19%)
Sunspider - Sunspider 1.0 Total Score *
min: 1428     avg: 1608     median: 1624 (18%)     max: 1771 ms
1043 ms (11%)
6771 ms (74%)
Sunspider - Sunspider 0.9.1 Total Score *
100%
1 PXA986 +
min: 1453     avg: 1531     median: 1530.5 (15%)     max: 1608 ms
Octane V2 - Octane V2 Total Score
100%
1 PXA986 +
1448 Points (1%)
2775 Points (3%)
Quadrant Standard Edition 2.0 - Quadrant Standard 2.0 Total Score
100%
1 PXA986 +
min: 3257     avg: 3515     median: 3514.5 (8%)     max: 3772 points
7189 points (17%)
AnTuTu v3 - AnTuTu v3 CPU
100%
1 PXA986 +
2945 Points (19%)
AnTuTu v4 - AnTuTu v4 Total Score
100%
1 PXA986 +
min: 11051     avg: 11392     median: 11392 (26%)     max: 11733 Points
23864 Points (56%)
AndEBench - AndEBench Java
100%
1 PXA986 +
min: 137     avg: 160     median: 159 (5%)     max: 184 Iter./s
584 Iter./s (18%)
AndEBench - AndEBench Native
100%
1 PXA986 +
min: 4077     avg: 4208     median: 4266 (14%)     max: 4281 Iter./s
13307 Iter./s (44%)
PassMark PerformanceTest Mobile V1 - PerformanceTest Mobile CPU Tests
100%
1 PXA986 +
min: 3273     avg: 3820     median: 3976 (1%)     max: 4210 Points
12178 Points (2%)

Average Benchmarks Marvell PXA986 → 100% n=1

Average Benchmarks HiSilicon Kirin 910T → 108% n=1

Average Benchmarks NXP i.MX 6SLL → 31% n=1

- Bereich der Benchmarkergebnisse für diese Grafikkarte
- Durchschnittliche Benchmarkergebnisse für diese Grafikkarte
* Smaller numbers mean a higher performance
1 This benchmark is not used for the average calculation

v1.17
log 06. 09:30:18

#0 checking url part for id 4461 +0s ... 0s

#1 checking url part for id 6191 +0s ... 0s

#2 checking url part for id 11524 +0s ... 0s

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

#4 did not recreate cache, as it is less than 5 days old! Created at Sat, 02 Jul 2022 13:13:02 +0200 +0s ... 0s

#5 linkCache_getLink no uid found +0.003s ... 0.004s

#6 linkCache_getLink no uid found +0.051s ... 0.055s

#7 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.055s

#8 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.055s

#9 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.055s

#10 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.055s

#11 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.055s

#12 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.055s

#13 linkCache_getLink no uid found +0.002s ... 0.057s

#14 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.057s

#15 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.057s

#16 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.057s

#17 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.057s

#18 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.057s

#19 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.057s

#20 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.057s

#21 linkCache_getLink no uid found +0s ... 0.057s

#22 composed specs +0s ... 0.057s

#23 did output specs +0s ... 0.057s

#24 getting avg benchmarks for device 4461 +0s ... 0.058s

#25 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.058s

#26 linkCache_getLink no uid found +0.001s ... 0.059s

#27 got single benchmarks 4461 +0.007s ... 0.066s

#28 getting avg benchmarks for device 6191 +0s ... 0.067s

#29 linkCache_getLink using $NBC_LINKCACHE +0.001s ... 0.067s

#30 got single benchmarks 6191 +0.006s ... 0.073s

#31 getting avg benchmarks for device 11524 +0s ... 0.074s

#32 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.074s

#33 linkCache_getLink no uid found +0s ... 0.074s

#34 got single benchmarks 11524 +0.004s ... 0.079s

#35 got avg benchmarks for devices +0s ... 0.079s

#36 linkCache_getLink using $NBC_LINKCACHE +0.001s ... 0.08s

#37 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.08s

#38 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.08s

#39 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.081s

#40 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.081s

#41 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.081s

#42 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.081s

#43 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.082s

#44 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.082s

#45 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.082s

#46 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.082s

#47 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.082s

#48 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.083s

#49 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.083s

#50 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.083s

#51 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.083s

#52 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.083s

#53 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.083s

#54 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.083s

#55 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.084s

#56 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.084s

#57 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.084s

#58 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.084s

#59 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.084s

#60 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.084s

#61 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.084s

#62 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.084s

#63 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.084s

#64 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.085s

#65 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.085s

#66 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.085s

#67 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.085s

#68 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.086s

#69 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.086s

#70 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.086s

#71 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.086s

#72 linkCache_getLink using $NBC_LINKCACHE +0.001s ... 0.086s

#73 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.086s

#74 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.087s

#75 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.087s

#76 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.087s

#77 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.087s

#78 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.087s

#79 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.088s

#80 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.088s

#81 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.088s

#82 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.089s

#83 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.089s

#84 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.089s

#85 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.089s

#86 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.089s

#87 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.09s

#88 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.09s

#89 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.09s

#90 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.09s

#91 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.09s

#92 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.09s

#93 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.09s

#94 linkCache_getLink using $NBC_LINKCACHE +0s ... 0.09s

#95 min, max, avg, median took s +0s ... 0.091s

#96 return log +0s ... 0.091s

Teilen Sie diesen Artikel um uns zu unterstützen. Jeder Link hilft!
> Notebook Test, Laptop Test und News > Benchmarks / Technik > Benchmarks / Technik > Prozessor Vergleich - Head 2 Head
Autor: Redaktion,  8.09.2017 (Update: 19.05.2020)