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=== Core === | === Core === | ||
==== Pipeline ==== | ==== Pipeline ==== | ||
− | {{main| | + | {{main|arm holdings/microarchitectures/arm2#Pipeline|l1=ARM2 Pipeline}} |
ARM3's pipeline is identical to the ARM2. | ARM3's pipeline is identical to the ARM2. | ||
− | |||
=== Clock Generator === | === Clock Generator === | ||
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. | 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. |
Facts about "ARM3 - Microarchitectures - Acorn"
codename | ARM3 + |
core count | 1 + |
designer | Acorn Computers + |
first launched | 1989 + |
full page name | acorn/microarchitectures/arm3 + |
instance of | microarchitecture + |
instruction set architecture | ARMv2a + |
manufacturer | VLSI Technology + and Sanyo + |
microarchitecture type | CPU + |
name | ARM3 + |
pipeline stages | 3 + |
process | 1,500 nm (1.5 μm, 0.0015 mm) + |