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ARM3 µarch
General Info
Arch TypeCPU
DesignerAcorn Computers
ManufacturerVLSI Technology, Sanyo
Introduction1989
Process1.5 µm
Core Configs1
Pipeline
TypeScalar, Pipelined
Stages3
Decode1-way
Instructions
ISAARMv2a
Cache
L1 Cache4 KiB/core
64-way set associative
Cores
Core NamesARM3,
ARM250
Succession

ARM3 is the second-generation commercial ARM implementation designed by Acorn Computers as a successor to the ARM2.

History[edit]

See also: ARM's History

The ARM3 builds on the success of the ARM2 with higher performance through the introduction of on-die cache but without any major changes to the core itself. The ARM3 was designed by a team of four engineers in nine months and was introduced in 1989. The ARM3 initially appeared with a 25 MHz crystal, In the Acorn A5000, with a peak performance of 25 MIPS and a sustainable performance of 12.72 MIPS. Later Acorn A540 and A5000 were supplied with ARM3 clocked the chip at 33MHz, with 3rd parties supplying chips clocked at 36 MHZ, to upgrade earlier ARM2 machines, from a sustained 4.85 to 17.44 MIPS.

Process Technology[edit]

See also: 1.5 µm process

The ARM3 was implemented on a 1.5 µm double-level metal (DLM) CMOS process.

Architecture[edit]

The major goal of the ARM3 was to improve performance. A target of three times the performance of the ARM2 was set. In order to support a faster microprocessor, the system would have to use faster DRAM which would negatively impact the overall cost. Instead, the design team opted to integrating cache.

Key changes from ARM2[edit]

  • Goal 3x the performance
    • Integrated cache
    • Integrated clock generator
    • Integrated control logic
    • Integrated co-processor interface

New instructions[edit]

New ARM3 instructions:

Memory:

  • SWP - Swap word memory-register, Atomic (uninterruptible)

Block Diagram[edit]

Entire Chip[edit]

arm3 block diagram.svg

Core[edit]

arm2 block diagram.svg

Memory Hierarchy[edit]

  • Cache
    • L1 Cache (unified)
      • 4 KiB, 64-way set associative
      • 16 B line size
      • Write-through policy
      • Per core
  • System DRAM
    • Up to 64 MiB

Overview[edit]

Control[edit]

The ARM3's control logic is a state machine implemented as three PLAs. Layout was generated automatically using EDA tools using Psuedo nMOS logic in order to save on space, albeit at the slight expense of static power dissipation.

Core[edit]

Pipeline[edit]

Main article: ARM2 Pipeline

ARM3's pipeline is identical to the ARM2.

Clock Generator[edit]

To increase performance, Acorn needed to increase the clock speed. This was not possible without leaving commodity DRAM for higher speed and more expensive DRAM. The alternative approach Acorn went with is an intermediate cache on-die. The ARM3 has two clock inputs, one fast one for the internal cache and one slower one for the external memory accesses. The two inputs are entirely independent allowing the system to optimize for both (fast cache and slower memory) at the same time.

Coprocessor Interface[edit]

Acorn introduced cache with the ARM3. This meant that most instructions are now coming from the on-chip cache instead of system memory. The way the coprocessor was originally designed in the ARM2 meant that the coprocessor could simply access its instructions from memory. This was no longer compatible with the new design. Acorn solved this problem by making the coprocessor lag behind exactly one cycle. Instructions that are identified as being coprocessor instructions are broadcasted off-chip on the following cycle. This was done using the processor's 32-bit data port along with timing and handshaking signals.

Cache[edit]

arm3 cache.svg

The ARM3's cache consists of a RAM and 4 tag CAM banks of 64 22-bit entries each for 64-way set associative. The choice of a 4-way split was entirely driven by the great reduction in power dissipation (so only 1/4 of the CAM has to be active at any one time), at the cost of negligible performance. Each CAM entry refers to one line of data in the RAM. Each line consists of four 32-bit words (i.e., 128 bit lines) with the low-order address bits being used for the select lines.

On a miss, a pseudo-random number generator is used to select an entry to evict and replace. On replacement a full line of four words is fetched from memory to minimize consecutive read operations. The cache uses a write-through update policy to ensure consistency. On a hit the appropriate line address are generated to be retrieved by the RAM.

The CAM consists of individual cells of six-transistor storage elements with a three-transistor comparators. The cell size was reported by Acorn to be 31.2 µm x 36.8 µm (1148.16 µm²) on a 1.5 µm process. The entry matching and address encoding logic uses dynamic logic in order to reduce power. The RAM is arranged in array of 128 x 256 cells with a 3-bit column select, producing a 32-bit output. The SRAM cells used were standard 6T SRAM cells measuring 19.6 µm x 28.4 µm. Self-timing logic is used to disable the 32 sense amplifiers when the data becomes valid in order to reduce power.

Die[edit]

  • 12 MHz, 1 W
  • 1.5 µm DLM CMOS
  • 8.72 mm x 9.95 mm
  • 86.764 mm² die size
  • 309,656 transistors
    • 206,454 SRAM
    • 62,973 CAM
    • 40,229 logic
  • QFP-160
    • 119 signal pins
    • 41 power/ground pins


arm3 die shot.png


arm3 die shot (annotated).png

All ARM3 Chips[edit]

 List of ARM3-based Processors
ModelProcessLaunchedFrequencyPower DissipationMax Memory
VL86C020ARM3198920 MHz
0.02 GHz
20,000 kHz
, 25 MHz
0.025 GHz
25,000 kHz
, 33 MHz
0.033 GHz
33,000 kHz
, 36 MHz
0.036 GHz
36,000 kHz
2 W
2,000 mW
0.00268 hp
0.002 kW
64 MiB
65,536 KiB
67,108,864 B
0.0625 GiB
6.103516e-5 TiB
Count: 1

References[edit]

  • Thomas, A. R. P., et al. "A 2nd Generation 32b RISC Processor with 4KByte Cache." Solid-State Circuits Conference, 1989. ESSCIRC'89. Proceedings of the 15th European. IEEE, 1989.
codenameARM3 +
core count1 +
designerAcorn Computers +
first launched1989 +
full page nameacorn/microarchitectures/arm3 +
instance ofmicroarchitecture +
instruction set architectureARMv2a +
manufacturerVLSI Technology + and Sanyo +
microarchitecture typeCPU +
nameARM3 +
pipeline stages3 +
process1,500 nm (1.5 μm, 0.0015 mm) +