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ACT-7000SC-200F24Q Datasheet(PDF) 8 Page - Aeroflex Circuit Technology |
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ACT-7000SC-200F24Q Datasheet(HTML) 8 Page - Aeroflex Circuit Technology |
8 / 25 page Aeroflex Circuit Technology SCD7000SC REV B 7/30/01 Plainview NY (516) 694-6700 8 Cache Memory In order to keep the ACT 7000SC’s superscalar pipeline full and operating efficiently, the ACT 7000SC has integrated primary instruction and data caches with single cycle access as well as a large unified secondary cache with a three cycle miss penalty from the primaries. Each primary cache has a 64-bit read path, a 128-bit write path, and both caches can be accessed simultaneously. The primary caches provide the integer and floating-point units with an aggregate band-width of 3.6 GB per second at an internal clock frequency of 225 MHz. During an instruction or data primary cache refill, the secondary cache can provide a 64-bit datum every cycle following the initial three cycle latency for a peak bandwidth of 2.4 GB per second. Instruction Cache The ACT 7000SC has an integrated 16KB, four-way set associative instruction cache and, even though instruction address translation is done in parallel with the cache access, the combination of 4-way set associativity and 16KB size results in a cache which is virtually indexed and physically tagged. Since the effective physical index eliminates the potential for virtual aliases in the cache, it is possible that some operating system code can be simplified as compared with the RM5200 Family, R5000 and R4000 class processors. The data array portion of the instruction cache is 64 bits wide and protected by word parity while the tag array holds a 24-bit physical address, 14 housekeeping bits, a valid bit, and a single bit of parity protection. By accessing 64 bits per cycle, the instruction cache is able to supply two instructions per cycle to the superscalar dispatch unit. For signal processing, graphics, and other numerical code sequences where a floating-point load or store and a floating-point computation instruction are being issued together in a loop, the entire bandwidth available from the instruction cache will be consumed by instruction issue. For typical integer code mixes, where instruction dependencies and other resource constraints restrict the achievable parallelism, the extra instruction cache bandwidth is used to fetch both the taken and non-taken branch paths to minimize the overall penalty for branches. A 32-byte (eight instruction) line size is used to maximize the communication efficiency between the instruction cache and the secondary cache, or memory system. The ACT 7000SC is the first MIPS RISC microprocessor to support cache locking on a per line basis. The contents of each line of the cache can be locked by setting a bit in the Tag. Locking the line prevents its contents from being overwritten by a subsequent cache miss. Refill will occur only into unlocked cache lines. This mechanism allows the programmer to lock critical code into the cache thereby guaranteeing deterministic behavior for the locked code sequence. Data Cache The ACT 7000SC has an integrated 16KB, four-way set associative data cache, and even though data address translation is done in parallel with the cache access, the combination of 4-way set associativity and 16KB size results in a cache which is physically indexed and physically tagged. Since the effective physical index eliminates the potential for virtual aliases in the cache, it is possible that some operating system code can be simplified compared to the RM5200 Family, R5000 and R4000 class processors. The data cache is non-blocking; that is, a miss in the data cache will not necessarily stall the processor pipeline. As long as no instruction is encountered which is dependent on the data reference which caused the miss, the pipeline will continue to advance. Once there are two cache misses outstanding, the processor will stall if it encounters another load or store instruction. A 32-byte (eight word) line size is used to maximize the communication efficiency between the data cache and the secondary cache or memory system. The data array portion of the data cache is 64 bits wide and protected by byte parity while the tag array holds a 24-bit physical address, 3 housekeeping bits, a two bit cache state field, and has two bits of parity protection. The normal write policy is write-back, which means that a store to a cache line does not immediately cause memory to be updated. This increases system performance by reducing bus traffic and eliminating the bottleneck of waiting for each store operation to finish before issuing a subsequent memory operation. Software can, however, select write-through on a per-page basis when appropriate, such as for frame buffers. Cache protocols supported for the data cache are: 1. Uncached. Reads to addresses in a memory area identified as uncached will not access the cache. Writes to such addresses will be written directly to main memory without updating the cache. 2. Write-back. Loads and instruction fetches will first search the cache, reading the next memory hierarchy level only if the desired data is not cache resident. On data store operations, the cache is first searched to determine if the target address is cache resident. If it is resident, the cache contents will be updated, and the cache line marked for later write-back. If the cache lookup misses, the target line is first brought into the cache and then the write is performed as above. 3. Write-through with write allocate. Loads and instruction fetches will first search the cache, reading from memory only if the desired data is not cache resident; write-through data is never cached in the secondary cache. On data store |
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