CHI write 传输——CHI(5)

发布于:2024-10-11 ⋅ 阅读:(16) ⋅ 点赞:(0)

上篇介绍了dataless的操作类型,本篇我们来介绍一下write

一、Write 操作概览

cache stash :一种投机行为,通过在其未来的使用点附近分配一个cacheline来提高系统性能,因为可以减少使用数据时的内存访问延迟

二、CopyBack

CopyBack transactioncoherent datacache搬移到下一级cachememory中,不需要去snooping系统中的其它agents

支持的操作有:

WriteBackPtl

WriteBackFull

WriteCleanFull

WriteEvictFull

WriteEvictOrEvict

步骤如下:

(1)The Requester sends a CopyBack request on the REQ channel.

(2)The Completer returns a single combined CompDBIDResp response on the CRSP channel to indicate:

        a. It can accept the write data for the transaction.

        b. This request will complete before any snoop(保序)

(3)After the Requester has received the CompDBIDResp response it sends the write data, with the CopyBackWrData opcode on the WDAT channel. The write data can be sent using multiple transfers.

1、WriteBackFull

三、Non-CopyBack

支持的操作有:

WriteNoSnp, WriteNoSnpZero.
WriteUnique, WriteUniqueZero.

其中,WriteNoSnp, WriteNoSnpZero不需要snoop其他master

 WriteNoSnpZero, WriteUniqueZero 不需要传输数据

步骤如下:

(1)Requester 在REQ通道发送WriteNoSnp WriteUnique 请求

(2)ICN返回response2种形式

a. 返回 2 response

                返回DBIDResp DBIDRespOrd表示有data buffer可以接收数据

                返回Comp,表示其他requester都可以观测到该transaction

b. 返回 1 response

                返回CompDBIDResp

对于Response

Comp 完成response,为了与DBIDResp区别开

CompDBIDResp Comp+DBIDResp

对于CopyBack,必须使用CompDBIDResp 作为完成response

对于Non-CopyBackAtomicStore ,可以选择分别发送CompDBIDResp,也可以将它们合并,只发送CompDBIDResp

DBIDRespOrd 不支持DVM 传输。DBIDResp支持

DBIDResp,表示可以接收数据

NCBWrDataCompAck
用于WriteUnique and WriteNoSnp
结合了NonCopyBackWrData and CompAck
The cache state in the response must be I.

以上这个机制保证了Requester收到Comp和发送CompAck之间,不能收到任何的同地址的snoop请求

1、WriteNoSnp

(1)RN-F0 issues a WriteNoSnp transaction
(2)HN-F receives and allocates the request.
(3)HN-F sends DBIDResp without Comp.
(4)RN-F0 responds with data.
(5)HN-F sends a Comp after it receives CompDBIDResp from SN-F.
(6)RN-F0 waits for Comp from HN-F and deallocates its request. 

2、WriteUniquePtl

The Comp_I response from HN-F must be sent when the coherency activity is complete at HN-F.

其中:

SnpCleanInvalid : Snoop 操作

cache line更改为Invalid状态,并获得dirty副本

SnpRespData_I_PD : snoop response
伴随 data
Cache line state I
PD (pass dirty)

四、DWT

DWT(Direct Write-data Transfer) : 数据直接从RequsterSlave,减少了对DAT channel的使用,并且不需要Home Node保存write data(所有DWT操作都是Non-Copyback,且在REQ channelDoDWT设置为1

(1) Requester Home 发送 WriteNoSnp or WriteUnique
(2)Home requestforward Slave
(3)Home request 返回 Comp response
(4)Slave 检测到 DoDWT ==1 ,向 requester 发送 DBIDResp
(5) Requester 在收到 DBIDResp 后,发送 NCBWrData response Slave ;若写操作被取消,则发送 WriteDataCancel (DAT channel opcode)
(6)Tag Match,由于涉及内容过多,我们在链接层单独介绍

1、WriteUniqueStash

(1)RN sends a WriteUniqueFullStash request to HN-F with the Stash target identified as RN-F1. Typically, the reqesting RN is an RN-I. 
(2)HN-F sends SnpMakeInvalidStash to RN-F1 and SnpUnique to RN-F2.
(3)RN-F1 and RN-F2 send SnpResp response to HN-F. The Snoop response from RN-F1 also include s a Read request, that is, the Data Pull.
(4)HN-F treats the Read request from RN-F1 as a ReadUnique , and sends a combined CompData to RN-F1.  CompData response includes the data written by RN.
(5)RN-F1 sends CompAck to HN-F to complete the Read transaction.

SnpResp_I
snoop cache line 处于 I 状态。
例如, Snoopee 接收到 SnpMakeInvalid 后即是发送 SnpResp_I
SnpResp_SC
snoop cache line 处于 SC I 状态;
SnpResp_UC
snoop cache line 处于 UC UCE SC I 状态;
( 存在 I/SC 的原因是下文提及的“ ( ).Silent cache state transitions”)
SnpResp_UD
snoop cache line 处于 UD 状态;
SnpResp_SD
snoop cache line 处于 SD 状态。

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