xref: /XiangShan/src/main/scala/xiangshan/mem/vector/VecBundle.scala (revision 00f9d184d720c2934146e1d3661fc6dc93cbdf1e) 
1/***************************************************************************************
2  * Copyright (c) 2020-2021 Institute of Computing Technology, Chinese Academy of Sciences
3  * Copyright (c) 2020-2021 Peng Cheng Laboratory
4  *
5  * XiangShan is licensed under Mulan PSL v2.
6  * You can use this software according to the terms and conditions of the Mulan PSL v2.
7  * You may obtain a copy of Mulan PSL v2 at:
8  *          http://license.coscl.org.cn/MulanPSL2
9  *
10  * THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND,
11  * EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT,
12  * MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE.
13  *
14  * See the Mulan PSL v2 for more details.
15  ***************************************************************************************/
16
17package xiangshan.mem
18
19import org.chipsalliance.cde.config.Parameters
20import chisel3._
21import chisel3.util._
22import utils._
23import utility._
24import xiangshan._
25import xiangshan.backend.Bundles._
26import xiangshan.backend.rob.RobPtr
27import xiangshan.backend.fu.PMPRespBundle
28import xiangshan.cache.mmu.{TlbCmd, TlbRequestIO}
29import xiangshan.cache._
30
31class VLSBundle(isVStore: Boolean=false)(implicit p: Parameters) extends VLSUBundle {
32  val flowMask            = UInt(VLENB.W) // each bit for a flow
33  val byteMask            = UInt(VLENB.W) // each bit for a byte
34  val data                = UInt(VLEN.W)
35  // val fof            = Bool() // fof is only used for vector loads
36  val excp_eew_index      = UInt(elemIdxBits.W)
37  // val exceptionVec   = ExceptionVec() // uop has exceptionVec
38  val baseAddr            = UInt(VAddrBits.W)
39  val stride              = UInt(VLEN.W)
40  // val flow_counter = UInt(flowIdxBits.W)
41
42  // instruction decode result
43  val flowNum             = UInt(flowIdxBits.W) // # of flows in a uop
44  // val flowNumLog2 = UInt(log2Up(flowIdxBits).W) // log2(flowNum), for better timing of multiplication
45  val nfields             = UInt(fieldBits.W) // NFIELDS
46  val vm                  = Bool() // whether vector masking is enabled
47  val usWholeReg          = Bool() // unit-stride, whole register load
48  val usMaskReg           = Bool() // unit-stride, masked store/load
49  val eew                 = UInt(ewBits.W) // size of memory elements
50  val sew                 = UInt(ewBits.W)
51  val emul                = UInt(mulBits.W)
52  val lmul                = UInt(mulBits.W)
53  val vlmax               = UInt(elemIdxBits.W)
54  val instType            = UInt(3.W)
55  val vd_last_uop         = Bool()
56  val vd_first_uop        = Bool()
57
58  val indexedSrcMask     = UInt(VLENB.W)
59  val indexedSplitOffset  = UInt(flowIdxBits.W)
60  // Inst's uop
61  val uop                 = new DynInst
62
63  val fof                 = Bool()
64  val vdIdxInField        = UInt(log2Up(maxMUL).W)
65  val uopOffset           = UInt(VLEN.W)
66  val preIsSplit          = Bool() // if uop need split, only not Unit-Stride or not 128bit-aligned unit stride need split
67  val mBIndex             = if(isVStore) UInt(vsmBindexBits.W) else UInt(vlmBindexBits.W)
68
69  val alignedType         = UInt(alignTypeBits.W)
70}
71
72object VSFQFeedbackType {
73  val tlbMiss = 0.U(3.W)
74  val mshrFull = 1.U(3.W)
75  val dataInvalid = 2.U(3.W)
76  val bankConflict = 3.U(3.W)
77  val ldVioCheckRedo = 4.U(3.W)
78  val feedbackInvalid = 7.U(3.W)
79
80  def apply() = UInt(3.W)
81}
82
83class VSFQFeedback (implicit p: Parameters) extends XSBundle {
84  // val flowPtr = new VsFlowPtr
85  val hit   = Bool()
86  //val flushState = Bool()
87  val sourceType = VSFQFeedbackType()
88  //val dataInvalidSqIdx = new SqPtr
89  val paddr = UInt(PAddrBits.W)
90  val mmio = Bool()
91  val atomic = Bool()
92  val exceptionVec = ExceptionVec()
93}
94
95class VecPipelineFeedbackIO(isVStore: Boolean=false) (implicit p: Parameters) extends VLSUBundle {
96  val mBIndex              = if(isVStore) UInt(vsmBindexBits.W) else UInt(vlmBindexBits.W)
97  val hit                  = Bool()
98  val isvec                = Bool()
99  val flushState           = Bool()
100  val sourceType           = VSFQFeedbackType()
101  //val dataInvalidSqIdx = new SqPtr
102  //val paddr                = UInt(PAddrBits.W)
103  val mmio                 = Bool()
104  //val atomic               = Bool()
105  val exceptionVec         = ExceptionVec()
106  val vaddr                = UInt(VAddrBits.W)
107  //val vec                  = new OnlyVecExuOutput
108   // feedback
109  val vecFeedback          = Bool()
110
111  val usSecondInv          = Bool() // only for unit stride, second flow is Invalid
112  val elemIdx              = UInt(elemIdxBits.W) // element index
113  val mask                 = UInt(VLENB.W)
114  val alignedType          = UInt(alignTypeBits.W)
115  // for load
116  val reg_offset           = OptionWrapper(!isVStore, UInt(vOffsetBits.W))
117  val elemIdxInsideVd      = OptionWrapper(!isVStore, UInt(elemIdxBits.W)) // element index in scope of vd
118  val vecdata              = OptionWrapper(!isVStore, UInt(VLEN.W))
119}
120
121class VecPipeBundle(isVStore: Boolean=false)(implicit p: Parameters) extends VLSUBundle {
122  val vaddr               = UInt(VAddrBits.W)
123  val mask                = UInt(VLENB.W)
124  val isvec               = Bool()
125  val uop_unit_stride_fof = Bool()
126  val reg_offset          = UInt(vOffsetBits.W)
127  val alignedType         = UInt(alignTypeBits.W)
128  val vecActive           = Bool() // 1: vector active element, 0: vector not active element
129  val is_first_ele        = Bool()
130  val isFirstIssue        = Bool()
131
132  val uop = new DynInst
133
134  val usSecondInv         = Bool() // only for unit stride, second flow is Invalid
135  val mBIndex             = if(isVStore) UInt(vsmBindexBits.W) else UInt(vlmBindexBits.W)
136  val elemIdx             = UInt(elemIdxBits.W)
137  val elemIdxInsideVd     = UInt(elemIdxBits.W) // only use in unit-stride
138}
139
140object VecFeedbacks {
141  // need to invalid lsq entry
142  val FLUSH  = 0
143  // merge buffer commits one uop
144  val COMMIT  = 1
145  // last uop of an inst, sq can commit
146  val LAST = 2
147  // total feedbacks
148  val allFeedbacks = 3
149}
150
151class MergeBufferReq(isVStore: Boolean=false)(implicit p: Parameters) extends VLSUBundle{
152  val mask                = UInt(VLENB.W)
153  val vaddr               = UInt(VAddrBits.W)
154  val flowNum             = UInt(flowIdxBits.W)
155  val uop                 = new DynInst
156  val data                = UInt(VLEN.W)
157  val vdIdx               = UInt(3.W)
158  val fof                 = Bool()
159  val vlmax               = UInt(elemIdxBits.W)
160  // val vdOffset            = UInt(vdOffset.W)
161}
162
163class MergeBufferResp(isVStore: Boolean=false)(implicit p: Parameters) extends VLSUBundle{
164  val mBIndex             = if(isVStore) UInt(vsmBindexBits.W) else UInt(vlmBindexBits.W)
165  val fail                = Bool()
166}
167
168class ToMergeBufferIO(isVStore: Boolean=false)(implicit p: Parameters) extends VLSUBundle{
169  val req                 = DecoupledIO(new MergeBufferReq(isVStore))
170  val resp                = Flipped(ValidIO(new MergeBufferResp(isVStore)))
171  // val issueInactive       = ValidIO
172}
173
174class FromSplitIO(isVStore: Boolean=false)(implicit p: Parameters) extends VLSUBundle{
175  val req                 = Flipped(DecoupledIO(new MergeBufferReq(isVStore)))
176  val resp                = ValidIO(new MergeBufferResp(isVStore))
177  // val issueInactive       = Flipped(ValidIO())
178}
179
180class FeedbackToSplitIO(implicit p: Parameters) extends VLSUBundle{
181  val elemWriteback       = Bool()
182}
183
184class FeedbackToLsqIO(implicit p: Parameters) extends VLSUBundle{
185  val robidx = new RobPtr
186  val uopidx = UopIdx()
187  val vaddr = UInt(VAddrBits.W)
188  val feedback = Vec(VecFeedbacks.allFeedbacks, Bool())
189    // for exception
190  val vstart           = UInt(elemIdxBits.W)
191  val vl               = UInt(elemIdxBits.W)
192  val exceptionVec     = ExceptionVec()
193
194  def isFlush  = feedback(VecFeedbacks.FLUSH)
195  def isCommit = feedback(VecFeedbacks.COMMIT)
196  def isLast = feedback(VecFeedbacks.LAST)
197}
198
199class VSplitIO(isVStore: Boolean=false)(implicit p: Parameters) extends VLSUBundle{
200  val redirect            = Flipped(ValidIO(new Redirect))
201  val in                  = Flipped(Decoupled(new MemExuInput(isVector = true))) // from iq
202  val toMergeBuffer       = new ToMergeBufferIO(isVStore) //to merge buffer req mergebuffer entry
203  val out                 = Decoupled(new VecPipeBundle(isVStore))// to scala pipeline
204  val vstd                = OptionWrapper(isVStore, Valid(new MemExuOutput(isVector = true)))
205}
206
207class VSplitPipelineIO(isVStore: Boolean=false)(implicit p: Parameters) extends VLSUBundle{
208  val redirect            = Flipped(ValidIO(new Redirect))
209  val in                  = Flipped(Decoupled(new MemExuInput(isVector = true)))
210  val toMergeBuffer       = new ToMergeBufferIO(isVStore) // req mergebuffer entry, inactive elem issue
211  val out                 = Decoupled(new VLSBundle())// to split buffer
212}
213
214class VSplitBufferIO(isVStore: Boolean=false)(implicit p: Parameters) extends VLSUBundle{
215  val redirect            = Flipped(ValidIO(new Redirect))
216  val in                  = Flipped(Decoupled(new VLSBundle()))
217  val out                 = Decoupled(new VecPipeBundle(isVStore))//to scala pipeline
218  val vstd                = OptionWrapper(isVStore, ValidIO(new MemExuOutput(isVector = true)))
219}
220
221class VMergeBufferIO(isVStore : Boolean=false)(implicit p: Parameters) extends VLSUBundle{
222  val redirect            = Flipped(ValidIO(new Redirect))
223  val fromPipeline        = if(isVStore) Vec(StorePipelineWidth, Flipped(DecoupledIO(new VecPipelineFeedbackIO(isVStore)))) else Vec(LoadPipelineWidth, Flipped(DecoupledIO(new VecPipelineFeedbackIO(isVStore))))
224  val fromSplit           = if(isVStore) Vec(VecStorePipelineWidth, new FromSplitIO) else Vec(VecLoadPipelineWidth, new FromSplitIO) // req mergebuffer entry, inactive elem issue
225  val uopWriteback        = if(isVStore) Vec(VSUopWritebackWidth, DecoupledIO(new MemExuOutput(isVector = true))) else Vec(VLUopWritebackWidth, DecoupledIO(new MemExuOutput(isVector = true)))
226  val toSplit             = if(isVStore) Vec(VecStorePipelineWidth, ValidIO(new FeedbackToSplitIO)) else Vec(VecLoadPipelineWidth, ValidIO(new FeedbackToSplitIO)) // for inorder inst
227  val toLsq               = if(isVStore) Vec(VSUopWritebackWidth, ValidIO(new FeedbackToLsqIO)) else Vec(VLUopWritebackWidth, ValidIO(new FeedbackToLsqIO)) // for lsq deq
228  val feedback            = if(isVStore) Vec(VSUopWritebackWidth, ValidIO(new RSFeedback(isVector = true))) else Vec(VLUopWritebackWidth, ValidIO(new RSFeedback(isVector = true)))//for rs replay
229}
230
231class VSegmentUnitIO(implicit p: Parameters) extends VLSUBundle{
232  val in                  = Flipped(Decoupled(new MemExuInput(isVector = true))) // from iq
233  val uopwriteback        = DecoupledIO(new MemExuOutput(isVector = true)) // writeback data
234  val rdcache             = new DCacheLoadIO // read dcache port
235  val sbuffer             = Decoupled(new DCacheWordReqWithVaddrAndPfFlag)
236  val dtlb                = new TlbRequestIO(2)
237  val pmpResp             = Flipped(new PMPRespBundle())
238  val flush_sbuffer       = new SbufferFlushBundle
239  val feedback            = ValidIO(new RSFeedback(isVector = true))
240  val redirect            = Flipped(ValidIO(new Redirect))
241  val exceptionInfo       = ValidIO(new FeedbackToLsqIO)
242}