Comparison of Armv7-A processors

This is a table comparing microarchitectures which implement the ARM ARMv7-A (A means Application^[1]) instruction set architecture and mandatory or optional extensions of it, the last AArch32.

Table

core	decode width	execution ports	pipeline depth	Out-of-order execution	FPU	pipelined VFP	FPU registers	NEON (SIMD)	big.LITTLE role	virtualization[2]	process technology	L0 cache	L1 cache	L2 cache	core configurations	speed per core (DMIPS / MHz)	ARM part number (in the main ID register)
ARM Cortex-A5	1		8	No	VFPv4 (optional)		16 × 64-bit	64-bit wide (optional)	No	No	40/28 nm		4–64 KiB / core		1, 2, 4	1.57	0xC05
ARM Cortex-A7	2	5 [3]	8	No	VFPv4	Yes	16 × 64-bit	64-bit wide	LITTLE	Yes [4]	40/28 nm		8–64 KiB / core	up to 1 MiB (optional)	1, 2, 4, 8	1.9	0xC07
ARM Cortex-A8	2	2 [5]	13	No	VFPv3	No	32 × 64-bit	64-bit wide	No	No	65/55/45 nm		32 KiB + 32 KiB	256 or 512 (typical) KiB	1	2.0	0xC08
ARM Cortex-A9	2	3 [6]	8–11 [7]	Yes	VFPv3 (optional)	Yes	(16 or 32) × 64-bit	64-bit wide (optional)	Companion Core	No [7]	65/45/40/32/28 nm		32 KiB + 32 KiB	1 MiB	1, 2, 4	2.5	0xC09
ARM Cortex-A12	3		11	Yes	VFPv4	Yes	32 × 64-bit	128-bit wide	No [8]	Yes	28nm		32-64 KiB + 32 KiB	256 KiB, to 8 MiB	1, 2, 4	3.0	0xC0D
ARM Cortex-A15	3	8 [3]	15/17-25	Yes	VFPv4	Yes	32 × 64-bit	128-bit wide	big	Yes [9]	32/28/20 nm		32 KiB + 32 KiB per core	up to 4 MiB per cluster, up to 8 MiB per chip	2, 4, 8 (4×2)	3.5 to 4.01	0xC0F
ARM Cortex-A17	2 [10]		11+	Yes	VFPv4	Yes	32 × 64-bit	128-bit wide	big	Yes	28nm		32 KiB + 32 KiB per core	256 KiB, up to 8 MiB	up to 4	4.0	0xC0E
Qualcomm Scorpion	2	3 [11]	10	Yes (FXU&LSU only) [12]	VFPv3	Yes		128-bit wide	No		65/45 nm		32 KiB + 32 KiB	256 KiB (single-core) 512 KiB (dual-core)	1, 2	2.1	0x00F
Qualcomm Krait [13]	3	7	11	Yes	VFPv4 [14]	Yes		128-bit wide	No		28 nm	4 KiB + 4 KiB direct mapped	16 KiB + 16 KiB 4-way set associative	1 MiB 8-way set associative (dual-core) / 2 MiB (quad-core)	2, 4	3.3 (Krait 200) 3.39 (Krait 300) 3.39 (Krait 400) 3.51 (Krait 450)	0x04D 0x06F
Apple A6	3	5	12	Yes	VFPv4	Yes	32 × 64-bit	128-bit wide	No		32 nm		32 KiB + 32 KiB	1 MiB	2	3.5	?
core	decode width	execution ports	pipeline depth	Out-of-order execution	FPU	pipelined VFP	FPU registers	NEON (SIMD)	big.LITTLE role	virtualization[2]	process technology	L0 cache	L1 cache	L2 cache	core configurations	speed per core (DMIPS / MHz)	ARM part number (in the main ID register)

See also

• Comparison of ARMv8-A cores
• List of ARM cores
• List of applications of ARM cores
• Multi-core processor

References

1. "ARM V7 Differences". infocenter.arm.com. ARM Information Center. Retrieved 1 June 2016.
2. "ARM processor hardware virtualization support". www.arm.com. ARM Holdings. Retrieved 1 June 2016.
3. "big.LITTLE processing with ARM Cortex-A15 & Cortex-A7" (PDF). www.arm.com. ARM Holdings. Archived from the original (PDF) on 17 October 2013. Retrieved 6 August 2014.
4. "Cortex-A7 processor". www.arm.com. ARM Holdings. Retrieved 1 June 2016.
5. "Cortex-A8 architecture". processors.wiki.TI.com. Texas Instruments. Archived from the original on 8 August 2014. Retrieved 6 August 2014.
6. "The ARM Cortex-A9 processors" (PDF). www.arm.com. ARM Holdings. Archived from the original (PDF) on 17 November 2014. Retrieved 6 August 2014.
7. "Cortex-A9 processor". www.arm.com. ARM Holdings. Retrieved 15 September 2014.
8. http://community.arm.com/groups/processors/blog/2014/09/30/arm-cortex-a17-cortex-a12-processor-update
9. "Cortex-A15 processor". www.arm.com. ARM Holdings. Retrieved 9 August 2016.
10. "ARM Cortex-A17 MPCore processor technical reference manual" (PDF). infocenter.arm.com. ARM Holdings. Retrieved 18 September 2014.
11. Klug, Brian (7 October 2011). "Qualcomm's new Snapdragon S4: MSM8960 & Krait architecture explored". www.anandtech.com. Anandtech. Retrieved 6 August 2014.
12. http://rtcgroup.com/arm/2007/presentations/253%20-%20ARM_DevCon_2007_Snapdragon_FINAL_20071004.pdf
13. http://www.anandtech.com/show/4940/qualcomm-new-snapdragon-s4-msm8960-krait-architecture
14. http://www.anandtech.com/show/5559/qualcomm-snapdragon-s4-krait-performance-preview-msm8960-adreno-225-benchmarks/2