The R4000 is a microprocessor developed by MIPS Computer Systems that implemented the MIPS III instruction set architecture (ISA). Officially announced on 1 October 1991, it was one of the first 64-bit microprocessors and the first MIPS III implementation. In the early 1990s, when RISC microprocessors were expected to replace CISC microprocessors such as the Intel i486, the R4000 was selected to be the microprocessor of the Advanced Computing Environment (ACE), an industry standard that intended to define a common RISC platform. ACE ultimately failed for a number of reasons, but the R4000 found success in the workstation and server markets.
There were three configurations of the R4000: the R4000PC, an entry-level model with no support for a secondary cache; the R4000SC, a model with secondary cache but no multiprocessor capability; and the R4000MC, a model with secondary cache and support for the cache coherency protocols required by multiprocessor systems.
The R4000 was a scalar superpipelined microprocessor with an eight-stage integer pipeline. During the first stage (IF), a virtual address for an instruction is generated and the instruction translation lookaside buffer (TLB) begins the translation of the address to a physical address. In the second stage (IS), translation is completed and the instruction is fetched from an internal 8 KB instruction cache. The instruction cache is direct-mapped and virtually indexed, physically tagged. It has a 16- or 32-byte line size. Architecturally, it could be expanded to 32 KB.
The R4000 is a microprocessor developed by MIPS Computer Systems that implemented the MIPS III instruction set architecture (ISA). Officially announced on 1 October 1991, it was one of the first 64-bit microprocessors and the first MIPS III implementation. In the early 1990s, when RISC microprocessors were expected to replace CISC microprocessors such as the Intel i486, the R4000 was selected to be the microprocessor of the Advanced Computing Environment (ACE), an industry standard that intended to define a common RISC platform. ACE ultimately failed for a number of reasons, but the R4000 found success in the workstation and server markets.
There were three configurations of the R4000: the R4000PC, an entry-level model with no support for a secondary cache; the R4000SC, a model with secondary cache but no multiprocessor capability; and the R4000MC, a model with secondary cache and support for the cache coherency protocols required by multiprocessor systems.
The R4000 was a scalar superpipelined microprocessor with an eight-stage integer pipeline. During the first stage (IF), a virtual address for an instruction is generated and the instruction translation lookaside buffer (TLB) begins the translation of the address to a physical address. In the second stage (IS), translation is completed and the instruction is fetched from an internal 8 KB instruction cache. The instruction cache is direct-mapped and virtually indexed, physically tagged. It has a 16- or 32-byte line size. Architecturally, it could be expanded to 32 KB.