ARM11

ARM11
Designed by	ARM Holdings
Instruction set	ARM (32-bit), Thumb (16-bit) (optional), Thumb-2 (optional)
Microarchitecture	ARM11

ARM11 is a group of 32-bit RISC ARM processor cores licensed by ARM Holdings.

Overview

Announced
Year	Core
2002	ARM1136J(F)-S
2003	ARM1156T2(F)-S
2003	ARM1176JZ(F)-S
2005	ARM11MPCore

The ARM11 microarchitecture (announced 29 April 2002) introduced the ARMv6 architectural additions which had been announced in October 2001. These include SIMD media instructions, multiprocessor support and a new cache architecture. The implementation included a significantly improved instruction processing pipeline, compared to previous ARM9 or ARM10 families, and is used in smartphones from Apple, Nokia, and others. The initial ARM11 core (ARM1136) was released to licensees in October 2002.

The ARM11 family are currently the only ARMv6-architecture cores. There are, however, ARMv6-M cores (Cortex-M0 and Cortex-M1), addressing microcontroller applications;^[1] ARM11 cores target more demanding applications.

Differences from ARM9

In terms of instruction set, ARM11 builds on the preceding ARM9 generation. It incorporates all ARM926EJ-S features and adds the ARMv6 instructions for media support (SIMD) and accelerating IRQ response.

Microarchitecture improvements in ARM11 cores^[2] include:

SIMD instructions which can double MPEG-4 and audio digital signal processing algorithm speed
Cache is physically addressed, solving many cache aliasing problems and reducing context switch overhead.
Unaligned and mixed-endian data access is supported.
Reduced heat production and lower overheating risk
Redesigned pipeline, supporting faster clock speeds (target up to 1 GHz)
- Longer: 8 (vs 5) stages
- Out-of-order completion for some operations (e.g. stores)
- Dynamic branch prediction/folding (like XScale)
- Cache misses don't block execution of non-dependent instructions.
- Load/store parallelism
- ALU parallelism
64-bit data paths

JTAG debug support (for halting, stepping, breakpoints, and watchpoints) was simplified. The EmbeddedICE module was replaced with an interface which became part of the ARMv7 architecture. The hardware tracing modules (ETM and ETB) are compatible, but updated, versions of those used in the ARM9. In particular, trace semantics were updated to address parallel instruction execution and data transfers.

ARM makes an effort to promote good Verilog coding styles and techniques. This ensures semantically rigorous designs, preserving identical semantics throughout the chip design flow, which included extensive use of formal verification techniques. Without such attention, integrating an ARM11 with third-party designs could risk exposing hard-to-find latent bugs. Due to ARM cores being integrated into many different designs, using a variety of logic synthesis tools and chip manufacturing processes, the impact of its register-transfer level (RTL) quality is magnified many times.^[3] The ARM11 generation focused more on synthesis than previous generations, making such concerns be more of an issue.

Cores

There are four ARM11 cores:

ARM1136^[4]
ARM1156, introduced Thumb2 instructions
ARM1176, introduced security extensions^[5]
ARM11MPcore, introduced multicore support

Chips

Raspberry Pi B+ with a Broadcom BCM2835 (ARM1176JZF-S)

This list is incomplete; you can help by expanding it.

Ambarella A5s, A7, A7L
ASPEED Technology Inc. AST25xx
Broadcom BCM2835 (Raspberry Pi), BCM21553
Cavium ECONA CNS3000 series ^[6]
CSR Quatro 4230, 45xx, 53xx
Freescale Semiconductor i.MX3x series, such as i.MX31, i.MX35
Nintendo CTR-CPU (Nintendo 3DS CPU)
Infotmic IMAPX2xx
Nvidia Tegra
PLX Technology NAS782x
MediaTek MTK6573
Qualcomm MSM720x, MSM7x27
Qualcomm Atheros AR7400
Samsung S3C64xx, S5P64xx, S5L87xx, S5L89xx or Exynos Dual with Logic11
Telechips TCC8902
Xcometic KVM2800
Texas Instruments OMAP2 series, with a TMS320 C55x or C64x DSP as a second core

References

↑ not supported by Linux as of version 3.3
↑ "The ARM11 Microarchitecture", ARM Ltd, 2002
↑ The Dangers of Living with an X (bugs hidden in your Verilog), Version 1.1 (14 October 2003).
↑ ARM1136JF-S and ARM1136J-S Technical Reference Manual Revision: r1p5; ARM DDI 0211K
↑ ARM1176JZF-6 Technical Reference Manual Revision: r0p7; accessed on 4 October 2012.
↑ "Cavium Networks Introduces ECONA Family of Super Energy Efficient ARM®-Based System-on-Chip (SoC) Processors for the Digital Home that break the 1 Watt Barrier" (Press release). Cavium. September 8, 2009.

External links

ARM Holdings

Official website
ARM11 Technical Reference Manuals
ARMv6 Architecture Reference Manual (requires registration)

Quick Reference Cards

Instructions: Thumb (1), ARM and Thumb-2 (2), Vector Floating Point (3)
Opcodes: Thumb (1, 2), ARM (3, 4), GNU Assembler Directives 5.

Other

ARM11 lacks an integer hardware division instruction
Yurichev, Dennis, "An Introduction To Reverse Engineering for Beginners" including ARM assembly. Online book: http://yurichev.com/writings/RE_for_beginners-en.pdf
The ARM11 Architecture, 2009, by Ian Davey and Payton Oliveri

Classic ARM-based chips

Classic
processors

ARM7	Atmel SAM7L, SAM7S, SAM7SE, SAM7X, SAM7XC, AT91CAP7, AT91M, AT91R NXP LPC21xx, LPC22xx, LPC23xx, LPC24xx, LH7 STMicroelectronics STR7

ARM9	Atmel SAM9G, SAM9M, SAM9N, SAM9R, SAM9X, SAM9XE, SAM926x, AT91CAP9 Freescale i.MX1x, i.MX2x Rockchip RK27xx, RK28xx NXP LPC29xx, LPC3xxx, LH7A ST-Ericsson Nomadik STn881x STMicroelectronics STR9 Texas Instruments OMAP 1, AM1x VIA WonderMedia WM8505/8650 ZiiLABS ZMS-05

ARM11	Broadcom BCM2835 Freescale i.MX3x Infotmic IMAPX210/220 Mindspeed Comcerto 1000 Nvidia Tegra APX, 6xx Qualcomm MSM7000, Snapdragon S1 ST-Ericsson Nomadik STn882x Telechips TCC8902 Texas Instruments OMAP 2 VIA WonderMedia WM87x0

ARMv2a compatible	Amber (open FPGA core)

ARMv4 compatible	DEC StrongARM

ARMv5 compatible	Intel/Marvell XScale Marvell Sheeva, Feroceon, Jolteon, Mohawk

ARMv6 compatible	Mindspeed Comcerto 1000

Application ARM-based chips

Application
processors
(32-bit)

Cortex-A5	Actions ATM702x Amlogic M805/S805 Atmel SAMA5D3 InfoTM iMAPx820, iMAPx15 Qualcomm Snapdragon S4 Play, 200 Telechips TCC892x

Cortex-A7	Allwinner A2x, A3x, A83T, H3, H8 Broadcom VideoCore BCM2836, BCM23550 Freescale QorIQ LS10xx Leadcore LC1813, LC1913 Marvell Armada PXA1920 MediaTek MT65xx Qualcomm Snapdragon 200, 400

Cortex-A8	Allwinner A1x Apple A4 Freescale i.MX5 Rockchip RK291x Samsung Exynos 3110, S5PC110, S5PV210 Texas Instruments OMAP 3 ZiiLABS ZMS-08

Cortex-A9	Actions ATM702x, ATM703x Altera Cyclone V, Arria V/10 Amlogic AML8726, MX, M6x, M801, M802/S802, S812, T866 Apple A5, A5X Broadcom VideoCore BCM21xxx, BCM28xxx Freescale i.MX6 HiSilicon K3V2 InfoTM iMAPx912 Leadcore LC1810, LC1811 MediaTek MT65xx Nvidia Tegra, 2, 3, 4i Nufront NuSmart 2816M, NS115, NS115M Renesas EMMA EV2, R-Car H1, RZ/A Rockchip RK292x, RK30xx, RK31xx Samsung Exynos 4 ST-Ericsson NovaThor Telechips TCC8803 Texas Instruments OMAP 4 VIA WonderMedia WM88x0, 89x0 Xilinx Zynq-7000 ZiiLABS ZMS-20, ZMS-40

Cortex-A15	Allwinner A80 HiSilicon K3V3 MediaTek MT6599 Nvidia Tegra 4, K1 Renesas R-Car H2 Samsung Exynos 5 Texas Instruments OMAP 5, DRA7xx, AM57xx

Cortex-A17	MediaTek MT6595 Rockchip RK3288

ARMv7-A compatible	Apple A6, A6X, S1 Broadcom Brahma-B15 Marvell P4J Qualcomm Snapdragon S1, S2, S3, S4 Plus, S4 Pro, 600, 800 (Scorpion, Krait)

Application
processors
(64-bit)

Cortex-A53	Actions S900 Allwinner A64, H64 Altera Stratix 10 Amlogic S905 Broadcom BCM2837 EZchip TILE-Mx100 Marvell Armada PXA1928, Mobile PXA1908/PXA1936 MediaTek MT673x, MT675x, MT6795, MT8732, MT8752, Helio X10 NXP ARM S32 Qualcomm Snapdragon 410 Rockchip RK3368 Xilinx ZynqMP HiSilicon Kirin 620 HiSilicon Kirin 950

Cortex-A57	AMD Opteron A1100 Freescale QorIQ LS20xx Nvidia Tegra X1 Qualcomm Snapdragon 808, 810 Samsung Exynos 7

Cortex-A72	HiSilicon Kirin 950 MediaTek Helio X20 Qualcomm Snapdragon 650, 652 Rockchip RK3399

Cortex-A73	MediaTek Helio X30 HiSilicon Kirin 960

ARMv8-A compatible	Apple A7, A8, A8X, A9, A9X Applied Micro X-Gene Samsung Mongoose Cavium ThunderX CN87xx, CN88xx Nvidia Tegra K1 (Project Denver) NXP i.MX 8 Qualcomm Kryo

This article is issued from Wikipedia - version of the 11/22/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.