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Advantages and Disadvantages

Pipelining does not help in all cases. There are several possible disadvantages. An instruction pipeline is said to be fully pipelined if it can accept a new instruction every clock cycle. A pipeline that is not fully pipelined has wait cycles that delay the progress of the pipeline.

並非在所有情況下管線技術都起作用。可能有一些缺點。如果一條指令管線能夠在每一個時脈週期(clock cycle)接納一條新的指令,被稱為完整管線化(fully pipelined)。因管線中的指令需要延遲處理而要等待數個時脈週期,被稱為非完整管線化。

Advantages of Pipelining:

1. The cycle time of the processor is reduced, thus increasing instruction issue-rate in most cases.

1. 减少了处理器执行指令所需要的时钟週期,在通常情況下增加了指令的輸入頻率(issue-rate)。

2. Some combinational circuits such as adders or multipliers can be made faster by adding more circuitry. If pipelining is used instead, it can save circuitry vs. a more complex combinational circuit.

2. 一些集成電路(combinational circuits),例如加法器(adders)或者乘法器(multipliers),通過添加更多的環路(circuitry)使其工作得更快。如果以管線化替代,能相對地減少環路。

Disadvantages of Pipelining:

1. A non-pipelined processor executes only a single instruction at a time. This prevents branch delays (in effect, every branch is delayed) and problems with serial instructions being executed concurrently. Consequently the design is simpler and cheaper to manufacture.

1. 非管線化的處理器每次(at a time)只執行一個指令。防止分支延時(事實上,每個分支都會產生延時)和串行指令被并行執行產生的問題。 同時,設計比較簡單和較低生產成本。

2. The instruction latency in a non-pipelined processor is slightly lower than in a pipelined equivalent. This is because extra flip flops must be added to the data path of a pipelined processor.

2. 在執行相同的指令時,非管線化處理器的指令傳輸延遲時間(The instruction latency)比管線化處理器明顯較短。這是因為管線化的處理器必須在數據路徑(data path)中添加額外正反器(flip-flops)。

3. A non-pipelined processor will have a stable instruction bandwidth. The performance of a pipelined processor is much harder to predict and may vary more widely between different programs.

3. 非管線化處理器有固定指令位寬(a stable instruction bandwidth)。管線化處理器的性能更難以預測,並且不同的程序之間的變化(vary)可能更大。

Execution is as follows: 執行順序如以下列表所示

Generic pipeline

To the right is a generic pipeline with four stages:

  1. 讀取指令(Fetch)
  2. 指令解碼(Decode)
  3. 執行指令(Execute)
  4. 寫回執行结果(Write-back)

(for lw and sw memory is accessed after execute stage)

The top gray box is the list of instructions waiting to be executed; the bottom gray box is the list of instructions that have been completed; and the middle white box is the pipeline.

上方的大灰色方格是一連串未被執行的指令;下方的大灰色格是已被執行完成的指令;中間的大白色方格是管線。


Time Execution 時序 執行情況 0 Four instructions are awaiting to be executed 四條指令等待執行 1

   * the green instruction is fetched from memory

主存儲器(memory)中讀取綠色指令

2

   * the green instruction is decoded

綠色指令被解碼

   * the purple instruction is fetched from memory

從主存儲器中讀取紫色指令 3

   * the green instruction is executed (actual operation is performed)

綠色指令被執行(事實上運算已經開始(performed))

   * the purple instruction is decoded

紫色指令被解碼

   * the blue instruction is fetched

從主存儲器中讀取藍色指令 4

   * the green instruction's results are written back to the register file or memory

綠色指令的運算結果被寫回到寄存器(register)或者主存儲器

   * the purple instruction is executed

紫色指令被執行

   * the blue instruction is decoded

藍色指令被解碼

   * the red instruction is fetched

從主存儲器中讀取紅色指令

5

   * the green instruction is completed

綠色指令被執行完畢

   * the purple instruction is written back

紫色指令的運算結果被寫回到寄存器或者主存儲器

   * the blue instruction is executed

藍色指令被執行

   * the red instruction is decoded

紅色指令被解碼 6

   * The purple instruction is completed

紫色指令被執行完畢

   * the blue instruction is written back

藍色指令的運算結果被寫回到寄存器或者主存儲器

   * the red instruction is executed

紅色指令被執行 7

   * the blue instruction is completed

藍色指令被執行完畢

   * the red instruction is written back

紅色指令的運算結果被寫回到寄存器或者主存儲器 8

   * the red instruction is completed

紅色指令被執行完畢 9 All instructions are executed


Bubble 氣泡 A bubble in cycle 3 delays execution 一個氣泡在編號為3的時脈週期中,指令執行被延遲 Main article: Bubble (computing)

When a "hiccup" in execution occurs, a "bubble" is created in the pipeline in which nothing useful happens. In cycle 2, the fetching of the purple instruction is delayed and the decoding stage in cycle 3 now contains a bubble. Everything "behind" the purple instruction is delayed as well but everything "ahead" of the purple instruction continues with execution.

在指令執行中產生一個“打嗝”(hiccup),在管線中生成一個沒有實效的氣泡。在編號為2的時脈週期中,紫色指令的讀取被延遲,並且在編號為3的時脈週期中解碼層也產生了一個氣泡。所有在紫色指令之後的指令都被延遲執行,而在其之前已經執行了的指令則不受影響。

Clearly, when compared to the execution above, the bubble yields a total execution time of 8 clock ticks instead of 7.

由於氣泡使指令執行延遲了一個時脈週期,完成全部4指令執行共需要8個時脈週期。

Bubbles are like stalls, in which nothing useful will happen for the fetch, decode, execute and writeback. It can be completed with a nop code.