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Encyclopedia > Register file

A register file is an array of processor registers in a central processing unit (CPU). Modern IC-based register files are usually implemented by way of fast static RAMs with multiple ports. Such RAMs are distinguished by having dedicated read and write ports, whereas ordinary multiported SRAMs will usually read and write through the same ports. In computer architecture, a processor register is a small amount of very fast computer memory used to speed the execution of computer programs by providing quick access to commonly used values—typically, the values being in the midst of a calculation at a given point in time. ... The central processing unit (CPU) is the part of a computer that interprets and carries out the instructions contained in the software. ... An integrated circuit (IC) is a thin chip consisting of at least two interconnected semiconductor devices, mainly transistors, as well as passive components like resistors. ... Static Random Access Memory (SRAM) is a type of semiconductor memory. ...

The instruction set architecture of a CPU will almost always define a set of registers which are used to stage data between memory and the functional units on the chip. In simpler CPUs, these architectural registers correspond one-for-one to the entries in a physical register file within the CPU. More complicated CPUs use register renaming, so that the mapping of which physical entry stores a particular architectural register changes dynamically during execution. An instruction set, or instruction set architecture (ISA), describes the aspects of a computer architecture visible to a programmer, including the native datatypes, instructions, registers, addressing modes, memory architecture, interrupt and exception handling, and external I/O (if any). ... In computer engineering, register renaming refers to a technique used to avoid unnecessary serialization of program operations imposed by the reuse of registers by those operations. ...



The usual layout convention is that a simple array is read out vertically. That is, a single word line, which runs horizontally, causes a row of bit cells to put their data on bit lines, which run vertically. Sense amps, which convert low-swing read bitlines into full-swing logic levels, are usually at the bottom (by convention). Larger regfiles are then sometimes constructed by tiling mirrored and rotated simple arrays.

Register files have one word line per entry per port, one bit line per bit of width per read port, and two bit lines per bit of width per write port. Each bit cell also has a Vdd and Vss. Therefore, the wire pitch area increases as the square of the number of ports, and the transistor area increases linearly. At some point, it may be smaller and/or faster to have multiple redundant register files, with smaller numbers of read ports, than a single register file with all the read ports. The MIPS R8000's integer unit, for example, had a 9 read 4 write port 32 entry 64-bit register file implemented in a 0.35-µm process, which could be seen looking at the chip from arms length(!). A MIPS R4400 microprocessor made by Toshiba MIPS, for Microprocessor without interlocked pipeline stages, is a RISC microprocessor architecture developed by MIPS Computer Systems Inc. ... In computer science, the term integer is used to refer to any data type which can represent some subset of the mathematical integers. ...


  • often broken into predecoder and decoder proper
  • decoder is a bunch of AND gates that drive word lines
  • one decoder per read or write port. If the array has four read and two write ports, for example, it has 6 word lines per bit cell in the array, and six AND gates per row in the decoder. Note that the decoder has to be pitch matched to the array, which forces those AND gates to be wide and short


  • The basic scheme for a bit cell:
    • State is stored in pair of inverters
    • Data is read out by nmos transistor to a bit line.
    • Data is written by shorting one side or the other to ground through a two-nmos stack.
    • So: read ports take one transistor per bit cell, write ports take four!
  • Many optimizations are possible:
    • Sharing lines between cells, for example, Vdd and Vss.
    • Read bit lines are often precharged to something between Vdd and Vss.
    • Read bit lines often swing only a fraction of the way to Vdd or Vss. A sense amplifier converts this small-swing signal into a full logic level. Small swing signals are faster because the bit line has little drive but a great deal of parasitic capacitance.
    • Write bit lines may be braided, so that they couple equally to the nearby read bitlines. Because write bitlines are full swing, they can cause significant disturbances on read bitlines.
    • If Vdd is a horizontal line, it can be switched off, by yet another decoder, if any of the write ports are writing that line during that cycle. This optimization increases the speed of the write.


Most register files make no special provision to prevent multiple write ports from writing the same entry simultaneously. Instead, the instruction scheduling hardware ensures that only one instruction in any particular cycle writes a particular entry. If multiple instructions targetting the same register are issued, all but one have their write enables turned off.

The crossed inverters take some finite time to settle after a write operation, during which a read operation will either take longer or return garbage. It is common to have bypass multiplexors that bypass written data to the read ports when a simultaneous read and write to the same entry is commanded. These bypass multiplexors are often just part of a larger bypass network that forwards results that have not yet been committed between functional units.

The register file is usually pitch matched to the datapath that it serves. Pitch matching avoids having the many busses passing over the datapath turn corners, which would use a lot of area. But since every unit must have the same bit pitch, every unit in the datapath ends up with the bit pitch forced by the widest unit, which can waste area in the other units. Register files, because they have two wires per bit per write port, and because all the bit lines must contact the silicon at every bit cell, can often set the pitch of a datapath.

Area can sometimes be saved, on machines with multiple units in a datapath, by having two datapaths side-by-side, each of which has smaller bit pitch than a single datapath would have. This case usually forces multiple copies of a register file, one for each datapath.

The DEC Alpha EV-6, for instance, had two copies of the integer register file, and took an extra cycle to propagate data between the two. The issue logic tried to reduce the number of operations forwarding data between the two. The R8000 floating-point unit had two copies of the floating-point register file, each with four write and four read ports, and wrote both copies at the same time. AXP redirects here. ...

Processors that do register renaming can arrange for each functional unit to write to a subset of the physical register file. This arrangement can eliminate the need for multiple write ports per bit cell, for a large savings in area. The resulting register file, effectively a stack of register files with single write ports, then benefits from replication and subsetting the read ports. At the limit, this technique would place a stack of 1-write, 2-read regfiles at the inputs to each functional unit. Since regfiles with a small number of ports are often dominated by transistor area, it is best not to push this technique to this limit, but it is useful all the same.

The SPARC ISA defines register windows, in which the 5-bit architectural names of the registers actually point into a window on a much larger register file, with hundreds of entries. Implementing multiported register files with hundreds of entries requires a lot of area. The register window slides by 16 registers when moved, so that each architectural register name can refer to only a small number of registers in the larger array, e.g. architectural register r20 can only refer to physical registers #20, #36, #52, #68, #84, #100, #116, if there are just seven windows in the physical file. SPARC (Scalable Processor ARChitecture) is a pure big-endian RISC microprocessor architecture originally designed in 1985 by Sun Microsystems. ... In computer engineering, the use of register windows is a technique to improve the performance of a particularly common operation, the procedure call. ...

To save area, some SPARC implementations implement a 32-entry register file, in which each cell has seven "bits". Only one is read and writeable through the external ports, but the contents of the bits can be rotated. A rotation accomplishes in a single cycle a movement of the register window. Because most of the wires accomplishing the state movement are local, tremendous bandwidth is possible with little power.

This same technique is used in the R10000 register renaming mapping file, which stores a 6-bit virtual register number for each of the physical registers. In the renaming file, the renaming state is checkpointed whenever a branch is taken, so that when a branch is detected to be mispredicted, the old renaming state can be recovered in a single cycle. (See Register renaming.) In computer engineering, register renaming refers to a technique used to avoid unnecessary serialization of program operations imposed by the reuse of registers by those operations. ...


Register File Design Considerations in Dynamically Scheduled Processors (http://citeseer.ist.psu.edu/farkas95register.html) - Farkas, Jouppi, Chow - 1995

See also

  Results from FactBites:
Register file - Wikipedia, the free encyclopedia (1312 words)
A register file is an array of processor registers in a central processing unit (CPU).
The register file is usually pitch matched to the datapath that it serves.
Register files, because they have two wires per bit per write port, and because all the bit lines must contact the silicon at every bit cell, can often set the pitch of a datapath.
Register renaming - Wikipedia, the free encyclopedia (2836 words)
Because the size of a register file generally grows as the square of the number of ports, the rename file is usually physically large and consumes significant power.
The sole use of the architectural register file is to recover from exceptions and branch mispredictions.
Exceptions and branch mispredictions, recognised at graduation, cause the architectural file to be copied to the future file, and all registers marked as ready in the rename file.
  More results at FactBites »



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