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ARM Cortex-A15

January 07, 2023

The ARM Cortex-A15 MPCore is a 32-bit processor core licensed by ARM Holdings implementing the ARMv7-A architecture. It is a multicore processor with out-of-order superscalar pipeline running at up to 2.5 GHz.[6]

ARM Cortex-A15
General information
LaunchedIn production late 2011,[1] to market late 2012[2]
Designed byARM Holdings
Performance
Max. CPU clock rate1.0 GHz  to 2.5 GHz 
Cache
L1 cache64 KB (32 KB I-cache, 32 KB D-cache) per core
L2 cacheUp to 4 MB[3] per cluster
L3 cachenone
Architecture and classification
Technology node32 nm/28 nm initially[4] to 22 nm roadmap[4]
MicroarchitectureARMv7-A
Physical specifications
Cores
  • 1–4 per cluster, 1–2 clusters per physical chip[5]

Overview

Main article: Comparison of ARMv7-A cores

ARM has claimed that the Cortex-A15 core is 40 percent more powerful than the Cortex-A9 core with the same number of cores at the same speed.[7] The first A15 designs came out in the autumn of 2011, but products based on the chip did not reach the market until 2012.[1]

Key features of the Cortex-A15 core are:

  • 40-bit Large Physical Address Extensions (LPAE) addressing up to 1 TB of RAM.[8][9] As per the x86 Physical Address Extension, virtual address space remains 32 bit.[10]
  • 15 stage integer/17–25 stage floating point pipeline, with out-of-order speculative issue 3-way superscalar execution pipeline[11]
  • 4 cores per cluster, up to 2 clusters per chip with CoreLink 400 (CCI-400, an AMBA-4 coherent interconnect) and 4 clusters per chip with CCN-504.[12] ARM provides specifications but the licensees individually design ARM chips, and AMBA-4 scales beyond 2 clusters. The theoretical limit is 16 clusters; 4 bits are used to code the CLUSTERID number in the CP15 register (bits 8 to 11).[13]
  • DSP and NEON SIMD extensions onboard (per core)
  • VFPv4 Floating Point Unit onboard (per core)
  • Hardware virtualization support
  • Thumb-2 instruction set encoding to reduce the size of programs with little impact on performance
  • TrustZone security extensions
  • Jazelle RCT for JIT compilation
  • Program Trace Macrocell and CoreSight Design Kit for unobtrusive tracing of instruction execution
  • 32 KB data + 32 KB instruction L1 cache per core
  • Integrated low-latency level-2 cache controller, up to 4 MB per cluster

Chips

First implementation came from Samsung in 2012 with the Exynos 5 Dual, which shipped in October 2012 with the Samsung Chromebook Series 3 (ARM version), followed in November by the Google Nexus 10.

Press announcements of current implementations:

Other licensees, such as LG,[22][23] are expected to produce an A15 based design at some point.

Systems on a chip

Model Number Semiconductor technology CPU GPU Memory interface Wireless radio technologies Availability Utilizing devices
HiSilicon K3V3 28 nm HPL big.LITTLE architecture using
1.8 GHz dual-core ARM Cortex-A15
+ dual-core ARM Cortex-A7 		Mali-T628 H2 2014
Nvidia Tegra 4 T40 28 nm HPL 1.9 GHz quad-core ARM Cortex-A15[24] + 1 low power core Nvidia GeForce @ 72 core, 672 MHz, 96.8 GFLOPS = 48 PS + 24 VU × 0.672 × 2 (96.8 GFLOPS)[25](support DirectX 11+, OpenGL 4.X, and PhysX) 32-bit dual-channel DDR3L or LPDDR3 up to 933 MHz (1866 MT/s data rate)[24] Category 3 (100 Mbit/s) LTE Q2 2013 Nvidia Shield Tegra Note 7
Nvidia Tegra 4 AP40 28 nm HPL 1.2-1.8 GHz quad-core + low power core Nvidia GPU 60 [24] cores (support DirectX 11+, OpenGL 4.X, and PhysX) 32-bit dual-channel 800 MHz LPDDR3 Category 3 (100 Mbit/s) LTE Q3 2013
Nvidia Tegra K1 28 nm HPm 2.3 GHz quad-core + battery saver core Kepler SMX (192 CUDA cores, 8 TMUs, 4 ROPs) 32-bit dual-channel DDR3L, LPDDR3 or LPDDR2 Q2 2014 Jetson TK1 development board,[26] Lenovo ThinkVision 28, Xiaomi MiPad, Shield Tablet
Texas Instruments OMAP5430 28 nm 1.7 GHz dual-core PowerVR SGX544MP2 @ 532 MHz + dedicated 2D graphics accelerator 32-bit dual-channel 532 MHz LPDDR2 Q2 2013 phyCore-OMAP5430[27]
Texas Instruments OMAP5432 28 nm 1.5 GHz dual-core PowerVR SGX544MP2 @ 532 MHz + dedicated 2D graphics accelerator 32-bit dual-channel 532 MHz DDR3 Q2 2013 DragonBox Pyra, SVTronics EVM,[28] Compulab SBC-T54[29]
Texas Instruments AM57x 28 nm 1.5 GHz single or dual-core PowerVR SGX544MP2 @ 532 MHz + dedicated 2D graphics accelerator 32-bit dual-channel 532 MHz DDR3 Q4 2015 BeagleBoard-X15, Elesar Titanium[30]
Texas Instruments 66AK2x 28 nm 1.5 GHz single, dual, and quad core devices 1-8 C66x DSP cores, radio acceleration, and many other application specific accelerators Q4 2015
Exynos 5 Dual[31]
(previously Exynos 5250)[32]		 32 nm HKMG 1.7 GHz dual-core ARM Cortex-A15 ARM Mali-T604[33] (quad-core) @ 533 MHz; 68.224 GFLOPS[citation needed] 32-bit dual-channel 800 MHz LPDDR3/DDR3 (12.8 GB/sec) or 533 MHz LPDDR2 (8.5 GB/sec) Q3 2012[32] Samsung Chromebook XE303C12,[34] Google Nexus 10, Arndale Board,[35] Huins ACHRO 5250 Exynos,[36] Freelander PD800 HD,[37] Voyo A15, HP Chromebook 11, Samsung Homesync
Exynos 5 Octa[38][39][40]
(internally Exynos 5410) 		28 nm HKMG 1.6 GHz[41] quad-core ARM Cortex-A15 and 1.2 GHz quad-core ARM Cortex-A7 (ARM big.LITTLE)[42] IT PowerVR SGX544MP3 (tri-core) @ 480 MHz 49 GFLOPS (532 MHz in some full-screen apps)[43] 32-bit dual-channel 800 MHz LPDDR3 (12.8 GB/sec) Q2 2013 Samsung Galaxy S4 I9500,[44][45] Hardkernel ODROID-XU,[46] Meizu MX3, ZTE Grand S II TD[47] ODROID-XU
Exynos 5 Octa[48]
(internally Exynos 5420) 		28 nm HKMG 1.8-1.9 GHz quad-core ARM Cortex-A15 and 1.3 GHz quad-core ARM Cortex-A7 (ARM big.LITTLE with GTS) ARM Mali-T628 MP6 @ 533 MHz; 109 GFLOPS 32-bit dual-channel 933 MHz LPDDR3e (14.9 GB/sec) Q3 2013 Samsung Chromebook 2 11.6",[49] Samsung Galaxy Note 3,[50] Samsung Galaxy Note 10.1 (2014 Edition), Samsung Galaxy Note Pro 12.2, Samsung Galaxy Tab Pro (12.2 & 10.1), Arndale Octa Board, Galaxy S5 SM-G900H [51]
Exynos 5 Octa[52]
(internally Exynos 5422) 		28 nm HKMG 2.1 GHz quad-core ARM Cortex-A15 and 1.5 GHz quad-core ARM Cortex-A7 (ARM big.LITTLE with GTS) ARM Mali-T628 MP6 @ 695 MHz (142 Gflops) 32-bit dual-channel 933 MHz LPDDR3/DDR3 (14.9 GB/sec) Q2 2014 Galaxy S5 SM-G900, Hardkernel ODROID-XU3 & ODROID-XU4[53]
Exynos 5 Octa[54]
(internally Exynos 5800) 		28 nm HKMG 2.1 GHz quad-core ARM Cortex-A15 and 1.3 GHz quad-core ARM Cortex-A7 (ARM big.LITTLE with GTS) ARM Mali-T628 MP6 @ 695 MHz (142 Gflops) 32-bit dual-channel 933 MHz LPDDR3/DDR3 (14.9 GB/sec) Q2 2014 Samsung Chromebook 2 13,3"[55]
Exynos 5 Hexa[56]
(internally Exynos 5260) 		28 nm HKMG 1.7 GHz dual-core ARM Cortex-A15 and 1.3 GHz quad-core ARM Cortex-A7 (ARM big.LITTLE with GTS) ARM Mali-T624 32-bit dual-channel 800 MHz LPDDR3 (12.8 GB/sec) Q2 2014 Galaxy Note 3 Neo (announced January 31, 2014), Samsung Galaxy K zoom[57]
Allwinner A80 Octa[58] 28 nm HPm Quad-core ARM Cortex-A15 and Quad-core ARM Cortex-A7 (ARM big.LITTLE with GTS) PowerVR G6230 (Rogue) 32-bit dual-channel DDR3/DDR3L/LPDDR3 or LPDDR2[59]

See also

References

  1. ^ a b TI Reveals OMAP 5: The First ARM Cortex A15 SoC
  2. ^ ARM Expects First Cortex-A15 Devices in Late 2012
  3. ^ Cortex-A15 Processor — Product description
  4. ^ a b ARM Unveils Cortex-A15 MPCore Processor to Dramatically Accelerate Capabilities of Mobile, Consumer and Infrastructure Applications — in the Supporting Technology section
  5. ^ . Archived from the original on 2011-04-05. Retrieved 2011-05-22.
  6. ^ ARM Cortex-A15 - ARM Processor
  7. ^ Exclusive : ARM Cortex-A15 "40 Per Cent" Faster Than Cortex-A9
  8. ^ ARM7 40-bit, virtualization
  9. ^ ARM e-mail to LINUX: Add support for the Large Physical Address Extensions
  10. ^ "Calxeda plots server dominance with ARM SoCs."
  11. ^ Exploring the Design of the Cortex-A15 Processor 2013-11-12 at the Wayback Machine Travis Lanier
  12. ^ "ARM A15 web page, Specification tab"
  13. ^ "Cortex-A15 MPCore Technical Reference Manual"
  14. ^ Broadcom announces plans for ARM's Cortex-A15 SoC | thinq
  15. ^ Huawei Announces HiSilicon K3V3 Chipset For Smartphones on Tom's Hardware
  16. ^
  17. ^ Samsung Announces Industry First ARM Cortex-A15 Processor Samples for Tablet Computers
  18. ^ Changing the game: ST-Ericsson Unveils NovaThor Family of Smartphone Platforms Combining its Most Advanced Application Processors with the Latest Generation of Modems 2013-06-18 at the Wayback Machine
  19. ^ Desire Athow (14 March 2011). "Exclusive : ARM Cortex-A15 "40 Per Cent" Faster Than Cortex-A9". Retrieved 2011-01-22.
  20. ^ . Archived from the original on 2011-02-12. Retrieved 2011-06-05.
  21. ^ TI disrupts the embedded market with the most powerful SoCs featuring real-time processing and multimedia
  22. ^ LG Electronics Licenses ARM Processor Technology to Drive - ARM
  23. ^ Why LG Getting ARM Cortex A15 License Is A Big Deal | ITProPortal.com
  24. ^ a b c "NVIDIA Embedded Systems for Next-Gen Autonomous Machines".
  25. ^ . Archived from the original on 2013-05-15. Retrieved 2013-04-10.
  26. ^ . Archived from the original on 2015-09-05. Retrieved 2014-05-02.
  27. ^ "The phyCORE-OMAP5430 System on Module". Retrieved 8 February 2016.
  28. ^ "OMAP5432 EVM". Retrieved 8 February 2016.
  29. ^ "TI OMAP5 System-on-Module (SoM)". Retrieved 8 February 2016.
  30. ^ "Titanium motherboard + Linux operating system". Retrieved 8 February 2016.
  31. ^ "Samsung Exynos 5 Dual". Products. Samsung Electronics Co.Ltd. Retrieved 7 October 2013.
  32. ^ a b "Samsung Announces Industry First ARM Cortex-A15 Processor Samples for Tablet Computers". News. Samsung Electronics Co.Ltd. 30 November 2011. Retrieved 7 October 2013.
  33. ^ "Samsung Exynos 5 Dual (Exynos 5250) RISC Microprocessor User's Manual Revision 1.0" (PDF). Samsung Electronics Co. Ltd. October 2012. Retrieved 7 October 2013.
  34. ^ "Samsung Chromebook". Retrieved 7 October 2013.
  35. ^ . www.arndaleboard.org. Archived from the original on 2013-09-26. Retrieved 7 October 2013.
  36. ^ "휴인스". Huins.com. Retrieved 2013-07-10.
  37. ^ . GeekBuying.com. Archived from the original on 19 July 2013. Retrieved 10 July 2013.
  38. ^ "Samsung Highlights Innovations in Mobile Experiences Driven by Components, in CES Keynote". CES News. SAMSUNG. 9 January 2013. Retrieved 7 October 2013.
  39. ^ "2013 International CES Keynote". Events. SAMSUNG. 9 January 2013. Retrieved 7 October 2013.
  40. ^ Nguyen, Hubert (17 January 2013). "Samsung Exynos 5 Octa Specs & Details". Uberzigmo. Blogzilla LL. Retrieved 7 October 2013.
  41. ^ "New Samsung Exynos 5 Octa". Products. Samsung Electronics Co.Ltd. Retrieved 7 October 2013.
  42. ^ (PDF). Arm.com. Archived from the original (PDF) on 17 April 2012. Retrieved 7 October 2013.
  43. ^ "Update on GPU Optimizations in Galaxy S 4". AnandTech. Retrieved 7 October 2013.
  44. ^ . CaCell. Archived from the original on 2013-10-14. Retrieved 7 October 2013.
  45. ^ "Your country will get Exynos or Snapdragon variant of the Galaxy S 4, we have the answer!". SamMobile.com. 20 March 2013. Retrieved 17 October 2013.
  46. ^ . Odroid Platform Developer. Hardkernel Co., Ltd. Archived from the original on 2 October 2013. Retrieved 7 October 2013.
  47. ^ "ZTE Grand S II TD". DeviceSpecifications. Retrieved 10 January 2014.
  48. ^ "New Samsung Exynos 5 Octa". Products. Samsung Electronics Co.Ltd. Retrieved 7 October 2013.
  49. ^ . Archived from the original on 2014-08-15.
  50. ^ "Samsung Galaxy Note 3 specs and features now official". Androidauthority.com. 4 September 2013. Retrieved 7 October 2013.
  51. ^ . Archived from the original on 2014-07-10. Retrieved 2014-05-02.
  52. ^ "Samsung Unveils New Products from its System LSI Business at Mobile World Congress". Samsung Tomorrow. Retrieved 26 February 2013.
  53. ^ . Odroid Platform Developer. Hardkernel Co., Ltd. Archived from the original on 2 January 2015. Retrieved 24 December 2014.
  54. ^ "Samsung Exynos". Samsung Tomorrow. Retrieved 28 April 2014.
  55. ^ "Samsung Chromebook 2 13.3".
  56. ^ "Samsung Unveils New Products from its System LSI Business at Mobile World Congress". 26 February 2014. Retrieved 2 May 2014.
  57. ^ "Samsung Galaxy K zoom". DeviceSpecifications. Retrieved 29 April 2014.
  58. ^ . Imagination. March 2014. Archived from the original on 2014-09-03. Retrieved 2014-05-02.
  59. ^ . Allwinner. May 2014. Archived from the original on 2014-05-02. Retrieved 2014-05-02.

External links

  • Official website

January 07, 2023
cortex, mpcore, processor, core, licensed, holdings, implementing, armv7, architecture, multicore, processor, with, order, superscalar, pipeline, running, general, informationlaunchedin, production, late, 2011, market, late, 2012, designed, byarm, holdingsperf. The ARM Cortex A15 MPCore is a 32 bit processor core licensed by ARM Holdings implementing the ARMv7 A architecture It is a multicore processor with out of order superscalar pipeline running at up to 2 5 GHz 6 ARM Cortex A15General informationLaunchedIn production late 2011 1 to market late 2012 2 Designed byARM HoldingsPerformanceMax CPU clock rate1 0 GHz to 2 5 GHz CacheL1 cache64 KB 32 KB I cache 32 KB D cache per coreL2 cacheUp to 4 MB 3 per clusterL3 cachenoneArchitecture and classificationTechnology node32 nm 28 nm initially 4 to 22 nm roadmap 4 MicroarchitectureARMv7 APhysical specificationsCores1 4 per cluster 1 2 clusters per physical chip 5 Contents 1 Overview 2 Chips 2 1 Systems on a chip 3 See also 4 References 5 External linksOverview EditMain article Comparison of ARMv7 A cores ARM has claimed that the Cortex A15 core is 40 percent more powerful than the Cortex A9 core with the same number of cores at the same speed 7 The first A15 designs came out in the autumn of 2011 but products based on the chip did not reach the market until 2012 1 Key features of the Cortex A15 core are 40 bit Large Physical Address Extensions LPAE addressing up to 1 TB of RAM 8 9 As per the x86 Physical Address Extension virtual address space remains 32 bit 10 15 stage integer 17 25 stage floating point pipeline with out of order speculative issue 3 way superscalar execution pipeline 11 4 cores per cluster up to 2 clusters per chip with CoreLink 400 CCI 400 an AMBA 4 coherent interconnect and 4 clusters per chip with CCN 504 12 ARM provides specifications but the licensees individually design ARM chips and AMBA 4 scales beyond 2 clusters The theoretical limit is 16 clusters 4 bits are used to code the CLUSTERID number in the CP15 register bits 8 to 11 13 DSP and NEON SIMD extensions onboard per core VFPv4 Floating Point Unit onboard per core Hardware virtualization support Thumb 2 instruction set encoding to reduce the size of programs with little impact on performance TrustZone security extensions Jazelle RCT for JIT compilation Program Trace Macrocell and CoreSight Design Kit for unobtrusive tracing of instruction execution 32 KB data 32 KB instruction L1 cache per core Integrated low latency level 2 cache controller up to 4 MB per clusterChips EditFirst implementation came from Samsung in 2012 with the Exynos 5 Dual which shipped in October 2012 with the Samsung Chromebook Series 3 ARM version followed in November by the Google Nexus 10 Press announcements of current implementations Broadcom SoC 14 HiSilicon K3V3 15 Nvidia Tegra 4 Wayne 16 and Tegra K1 Samsung Exynos 5 Dual Quad and Octa 17 ST Ericsson Nova A9600 cancelled dual core 2 5 GHz over 20k DMIPS 18 19 Texas Instruments OMAP 5 SoCs 20 and Sitara AM57x family 21 Other licensees such as LG 22 23 are expected to produce an A15 based design at some point Systems on a chip Edit Model Number Semiconductor technology CPU GPU Memory interface Wireless radio technologies Availability Utilizing devicesHiSilicon K3V3 28 nm HPL big LITTLE architecture using1 8 GHz dual core ARM Cortex A15 dual core ARM Cortex A7 Mali T628 H2 2014Nvidia Tegra 4 T40 28 nm HPL 1 9 GHz quad core ARM Cortex A15 24 1 low power core Nvidia GeForce 72 core 672 MHz 96 8 GFLOPS 48 PS 24 VU 0 672 2 96 8 GFLOPS 25 support DirectX 11 OpenGL 4 X and PhysX 32 bit dual channel DDR3L or LPDDR3 up to 933 MHz 1866 MT s data rate 24 Category 3 100 Mbit s LTE Q2 2013 Nvidia Shield Tegra Note 7Nvidia Tegra 4 AP40 28 nm HPL 1 2 1 8 GHz quad core low power core Nvidia GPU 60 24 cores support DirectX 11 OpenGL 4 X and PhysX 32 bit dual channel 800 MHz LPDDR3 Category 3 100 Mbit s LTE Q3 2013Nvidia Tegra K1 28 nm HPm 2 3 GHz quad core battery saver core Kepler SMX 192 CUDA cores 8 TMUs 4 ROPs 32 bit dual channel DDR3L LPDDR3 or LPDDR2 Q2 2014 Jetson TK1 development board 26 Lenovo ThinkVision 28 Xiaomi MiPad Shield TabletTexas Instruments OMAP5430 28 nm 1 7 GHz dual core PowerVR SGX544MP2 532 MHz dedicated 2D graphics accelerator 32 bit dual channel 532 MHz LPDDR2 Q2 2013 phyCore OMAP5430 27 Texas Instruments OMAP5432 28 nm 1 5 GHz dual core PowerVR SGX544MP2 532 MHz dedicated 2D graphics accelerator 32 bit dual channel 532 MHz DDR3 Q2 2013 DragonBox Pyra SVTronics EVM 28 Compulab SBC T54 29 Texas Instruments AM57x 28 nm 1 5 GHz single or dual core PowerVR SGX544MP2 532 MHz dedicated 2D graphics accelerator 32 bit dual channel 532 MHz DDR3 Q4 2015 BeagleBoard X15 Elesar Titanium 30 Texas Instruments 66AK2x 28 nm 1 5 GHz single dual and quad core devices 1 8 C66x DSP cores radio acceleration and many other application specific accelerators Q4 2015Exynos 5 Dual 31 previously Exynos 5250 32 32 nm HKMG 1 7 GHz dual core ARM Cortex A15 ARM Mali T604 33 quad core 533 MHz 68 224 GFLOPS citation needed 32 bit dual channel 800 MHz LPDDR3 DDR3 12 8 GB sec or 533 MHz LPDDR2 8 5 GB sec Q3 2012 32 Samsung Chromebook XE303C12 34 Google Nexus 10 Arndale Board 35 Huins ACHRO 5250 Exynos 36 Freelander PD800 HD 37 Voyo A15 HP Chromebook 11 Samsung HomesyncExynos 5 Octa 38 39 40 internally Exynos 5410 28 nm HKMG 1 6 GHz 41 quad core ARM Cortex A15 and 1 2 GHz quad core ARM Cortex A7 ARM big LITTLE 42 IT PowerVR SGX544MP3 tri core 480 MHz 49 GFLOPS 532 MHz in some full screen apps 43 32 bit dual channel 800 MHz LPDDR3 12 8 GB sec Q2 2013 Samsung Galaxy S4 I9500 44 45 Hardkernel ODROID XU 46 Meizu MX3 ZTE Grand S II TD 47 ODROID XUExynos 5 Octa 48 internally Exynos 5420 28 nm HKMG 1 8 1 9 GHz quad core ARM Cortex A15 and 1 3 GHz quad core ARM Cortex A7 ARM big LITTLE with GTS ARM Mali T628 MP6 533 MHz 109 GFLOPS 32 bit dual channel 933 MHz LPDDR3e 14 9 GB sec Q3 2013 Samsung Chromebook 2 11 6 49 Samsung Galaxy Note 3 50 Samsung Galaxy Note 10 1 2014 Edition Samsung Galaxy Note Pro 12 2 Samsung Galaxy Tab Pro 12 2 amp 10 1 Arndale Octa Board Galaxy S5 SM G900H 51 Exynos 5 Octa 52 internally Exynos 5422 28 nm HKMG 2 1 GHz quad core ARM Cortex A15 and 1 5 GHz quad core ARM Cortex A7 ARM big LITTLE with GTS ARM Mali T628 MP6 695 MHz 142 Gflops 32 bit dual channel 933 MHz LPDDR3 DDR3 14 9 GB sec Q2 2014 Galaxy S5 SM G900 Hardkernel ODROID XU3 amp ODROID XU4 53 Exynos 5 Octa 54 internally Exynos 5800 28 nm HKMG 2 1 GHz quad core ARM Cortex A15 and 1 3 GHz quad core ARM Cortex A7 ARM big LITTLE with GTS ARM Mali T628 MP6 695 MHz 142 Gflops 32 bit dual channel 933 MHz LPDDR3 DDR3 14 9 GB sec Q2 2014 Samsung Chromebook 2 13 3 55 Exynos 5 Hexa 56 internally Exynos 5260 28 nm HKMG 1 7 GHz dual core ARM Cortex A15 and 1 3 GHz quad core ARM Cortex A7 ARM big LITTLE with GTS ARM Mali T624 32 bit dual channel 800 MHz LPDDR3 12 8 GB sec Q2 2014 Galaxy Note 3 Neo announced January 31 2014 Samsung Galaxy K zoom 57 Allwinner A80 Octa 58 28 nm HPm Quad core ARM Cortex A15 and Quad core ARM Cortex A7 ARM big LITTLE with GTS PowerVR G6230 Rogue 32 bit dual channel DDR3 DDR3L LPDDR3 or LPDDR2 59 See also Edit Electronics portalARM architecture Comparison of ARMv7 A cores Comparison of ARMv8 A cores JTAG List of applications of ARM cores List of ARM coresReferences Edit a b TI Reveals OMAP 5 The First ARM Cortex A15 SoC ARM Expects First Cortex A15 Devices in Late 2012 Cortex A15 Processor Product description a b ARM Unveils Cortex A15 MPCore Processor to Dramatically Accelerate Capabilities of Mobile Consumer and Infrastructure Applications in the Supporting Technology section CoreLink Network Interconnect for AMBA AXI Archived from the original on 2011 04 05 Retrieved 2011 05 22 ARM Cortex A15 ARM Processor Exclusive ARM Cortex A15 40 Per Cent Faster Than Cortex A9 ARM7 40 bit virtualization ARM e mail to LINUX Add support for the Large Physical Address Extensions Calxeda plots server dominance with ARM SoCs Exploring the Design of the Cortex A15 Processor Archived 2013 11 12 at the Wayback Machine Travis Lanier ARM A15 web page Specification tab Cortex A15 MPCore Technical Reference Manual Broadcom announces plans for ARM s Cortex A15 SoC thinq Huawei Announces HiSilicon K3V3 Chipset For Smartphones on Tom s Hardware NVIDIA Announces Project Denver to Build Custom CPU Cores Based on ARM Architecture Targeting Personal Computers to Supercomputers NVIDIA Newsroom Samsung Announces Industry First ARM Cortex A15 Processor Samples for Tablet Computers Changing the game ST Ericsson Unveils NovaThor Family of Smartphone Platforms Combining its Most Advanced Application Processors with the Latest Generation of Modems Archived 2013 06 18 at the Wayback Machine Desire Athow 14 March 2011 Exclusive ARM Cortex A15 40 Per Cent Faster Than Cortex A9 Retrieved 2011 01 22 OMAP Applications Processors OMAP 5 Platform Archived from the original on 2011 02 12 Retrieved 2011 06 05 TI disrupts the embedded market with the most powerful SoCs featuring real time processing and multimedia LG Electronics Licenses ARM Processor Technology to Drive ARM Why LG Getting ARM Cortex A15 License Is A Big Deal ITProPortal com a b c NVIDIA Embedded Systems for Next Gen Autonomous Machines 359GSM Forum Vizh temata Nvidia Tegra 4 Wayne FULL Archived from the original on 2013 05 15 Retrieved 2013 04 10 Jetson TK1 development board Archived from the original on 2015 09 05 Retrieved 2014 05 02 The phyCORE OMAP5430 System on Module Retrieved 8 February 2016 OMAP5432 EVM Retrieved 8 February 2016 TI OMAP5 System on Module SoM Retrieved 8 February 2016 Titanium motherboard Linux operating system Retrieved 8 February 2016 Samsung Exynos 5 Dual Products Samsung Electronics Co Ltd Retrieved 7 October 2013 a b Samsung Announces Industry First ARM Cortex A15 Processor Samples for Tablet Computers News Samsung Electronics Co Ltd 30 November 2011 Retrieved 7 October 2013 Samsung Exynos 5 Dual Exynos 5250 RISC Microprocessor User s Manual Revision 1 0 PDF Samsung Electronics Co Ltd October 2012 Retrieved 7 October 2013 Samsung Chromebook Retrieved 7 October 2013 ArndaleBoard org www arndaleboard org Archived from the original on 2013 09 26 Retrieved 7 October 2013 휴인스 Huins com Retrieved 2013 07 10 Freelander PD800 HD Dual Core Exynos 5250 Android 4 2 Tablet PC 9 7 Retina Capacitive Touch Screen 2048 1536 2GB 16GB BT White GeekBuying com Archived from the original on 19 July 2013 Retrieved 10 July 2013 Samsung Highlights Innovations in Mobile Experiences Driven by Components in CES Keynote CES News SAMSUNG 9 January 2013 Retrieved 7 October 2013 2013 International CES Keynote Events SAMSUNG 9 January 2013 Retrieved 7 October 2013 Nguyen Hubert 17 January 2013 Samsung Exynos 5 Octa Specs amp Details Uberzigmo Blogzilla LL Retrieved 7 October 2013 New Samsung Exynos 5 Octa Products Samsung Electronics Co Ltd Retrieved 7 October 2013 Big LITTLE Processing with ARM Cortex A15 amp Cortex A7 PDF Arm com Archived from the original PDF on 17 April 2012 Retrieved 7 October 2013 Update on GPU Optimizations in Galaxy S 4 AnandTech Retrieved 7 October 2013 Samsung Galaxy S4 32 GB CaCell Archived from the original on 2013 10 14 Retrieved 7 October 2013 Your country will get Exynos or Snapdragon variant of the Galaxy S 4 we have the answer SamMobile com 20 March 2013 Retrieved 17 October 2013 Products Exynos5 Octa Odroid Platform Developer Hardkernel Co Ltd Archived from the original on 2 October 2013 Retrieved 7 October 2013 ZTE Grand S II TD DeviceSpecifications Retrieved 10 January 2014 New Samsung Exynos 5 Octa Products Samsung Electronics Co Ltd Retrieved 7 October 2013 Samsung Chromebook 2 11 6 Archived from the original on 2014 08 15 Samsung Galaxy Note 3 specs and features now official Androidauthority com 4 September 2013 Retrieved 7 October 2013 Samsung Galaxy S5 Buy Samsung Galaxy S5 Online Samsung India eStore Archived from the original on 2014 07 10 Retrieved 2014 05 02 Samsung Unveils New Products from its System LSI Business at Mobile World Congress Samsung Tomorrow Retrieved 26 February 2013 Products Exynos5 Octa Odroid Platform Developer Hardkernel Co Ltd Archived from the original on 2 January 2015 Retrieved 24 December 2014 Samsung Exynos Samsung Tomorrow Retrieved 28 April 2014 Samsung Chromebook 2 13 3 Samsung Unveils New Products from its System LSI Business at Mobile World Congress 26 February 2014 Retrieved 2 May 2014 Samsung Galaxy K zoom DeviceSpecifications Retrieved 29 April 2014 Allwinner UltraOcta A80 processor packs a PowerVR Series6 GPU with 64 cores Imagination March 2014 Archived from the original on 2014 09 03 Retrieved 2014 05 02 A80 Allwinner May 2014 Archived from the original on 2014 05 02 Retrieved 2014 05 02 External links EditOfficial website Retrieved from https en wikipedia org w index php title ARM Cortex A15 amp oldid 1129325363, wikipedia, wiki, book, books, library,

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