riscv/rocket-chip
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Merge branch 'master' of github.com:ucb-bar/reference-chip into dse

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Conflicts:
	src/main/scala/ReferenceChip.scala
This commit is contained in:
Adam Izraelevitz 2014-08-01 18:07:22 -07:00
commit fcd68364ff
15 changed files with 320 additions and 360 deletions
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1
.gitignore vendored
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@ -1,2 +1,3 @@
target/ target/
project/target project/target
*.swp

45
Makefrag
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@ -114,6 +114,7 @@ asm_p_tests = \
rv64uf-p-fcmp \ rv64uf-p-fcmp \
rv64uf-p-fcvt \ rv64uf-p-fcvt \
rv64uf-p-fcvt_w \ rv64uf-p-fcvt_w \
rv64uf-p-fclass \
rv64uf-p-fadd \ rv64uf-p-fadd \
rv64uf-p-fmin \ rv64uf-p-fmin \
rv64uf-p-fmadd \ rv64uf-p-fmadd \
@ -210,6 +211,7 @@ asm_v_tests = \
rv64uf-v-fcmp \ rv64uf-v-fcmp \
rv64uf-v-fcvt \ rv64uf-v-fcvt \
rv64uf-v-fcvt_w \ rv64uf-v-fcvt_w \
rv64uf-v-fclass \
rv64uf-v-fadd \ rv64uf-v-fadd \
rv64uf-v-fmin \ rv64uf-v-fmin \
rv64uf-v-fmadd \ rv64uf-v-fmadd \
@ -222,9 +224,12 @@ vecasm_p_tests = \
rv64uv-p-vmsv \ rv64uv-p-vmsv \
rv64uv-p-vmvv \ rv64uv-p-vmvv \
rv64uv-p-vfmvv \ rv64uv-p-vfmvv \
rv64uv-p-vfmsv_d \
rv64uv-p-vfmsv_s \
rv64uv-p-vsetcfg \ rv64uv-p-vsetcfg \
rv64uv-p-vsetcfgi \ rv64uv-p-vsetcfgi \
rv64uv-p-vsetvl \ rv64uv-p-vsetvl \
rv64uv-p-keepcfg \
rv64uv-p-movz \ rv64uv-p-movz \
rv64uv-p-movn \ rv64uv-p-movn \
rv64uv-p-fmovz \ rv64uv-p-fmovz \
@ -270,6 +275,7 @@ vecasm_p_tests = \
rv64uv-p-amoswap_w \ rv64uv-p-amoswap_w \
rv64uv-p-imul \ rv64uv-p-imul \
rv64uv-p-fma \ rv64uv-p-fma \
rv64uv-p-fma_many \
rv64ui-p-vec-mul \ rv64ui-p-vec-mul \
rv64ui-p-vec-mulw \ rv64ui-p-vec-mulw \
rv64ui-p-vec-mulh \ rv64ui-p-vec-mulh \
@ -311,15 +317,18 @@ vecasm_p_tests = \
rv64uf-p-vec-fcvt_w \ rv64uf-p-vec-fcvt_w \
rv64uf-p-vec-fcvt \ rv64uf-p-vec-fcvt \
rv64uf-p-vec-fcmp \ rv64uf-p-vec-fcmp \
# rv64sv-p-illegal_tvec_cmd \ rv64sv-p-illegal_cfg_nxpr \
# rv64sv-p-illegal_tvec_regid \ rv64sv-p-illegal_cfg_nfpr \
# rv64sv-p-illegal_vt_inst \ rv64sv-p-illegal_inst \
# rv64sv-p-illegal_vt_regid \ rv64sv-p-illegal_tvec_regid \
# rv64sv-p-ma_utld \ rv64sv-p-illegal_vt_inst \
# rv64sv-p-ma_utsd \ rv64sv-p-illegal_vt_regid \
# rv64sv-p-ma_vld \ rv64sv-p-ma_utld \
# rv64sv-p-ma_vsd \ rv64sv-p-ma_utsd \
# rv64sv-p-ma_vt_inst \ rv64sv-p-ma_vld \
rv64sv-p-ma_vsd \
rv64sv-p-ma_vt_inst \
rv64sv-p-privileged_inst \
vecasm_v_tests = \ vecasm_v_tests = \
rv64uv-v-wakeup \ rv64uv-v-wakeup \
@ -328,6 +337,12 @@ vecasm_v_tests = \
rv64uv-v-vmsv \ rv64uv-v-vmsv \
rv64uv-v-vmvv \ rv64uv-v-vmvv \
rv64uv-v-vfmvv \ rv64uv-v-vfmvv \
rv64uv-v-vfmsv_d \
rv64uv-v-vfmsv_s \
rv64uv-v-vsetcfg \
rv64uv-v-vsetcfgi \
rv64uv-v-vsetvl \
rv64uv-v-keepcfg \
rv64uv-v-movz \ rv64uv-v-movz \
rv64uv-v-movn \ rv64uv-v-movn \
rv64uv-v-fmovz \ rv64uv-v-fmovz \
@ -371,6 +386,7 @@ vecasm_v_tests = \
rv64uv-v-amominu_w \ rv64uv-v-amominu_w \
rv64uv-v-imul \ rv64uv-v-imul \
rv64uv-v-fma \ rv64uv-v-fma \
rv64uv-v-fma_many \
rv64ui-v-vec-mul \ rv64ui-v-vec-mul \
rv64ui-v-vec-mulw \ rv64ui-v-vec-mulw \
rv64ui-v-vec-mulh \ rv64ui-v-vec-mulh \
@ -426,6 +442,12 @@ vecasm_pt_tests = \
rv64uv-pt-vmvv \ rv64uv-pt-vmvv \
rv64uv-pt-vmsv \ rv64uv-pt-vmsv \
rv64uv-pt-vfmvv \ rv64uv-pt-vfmvv \
rv64uv-pt-vfmsv_d \
rv64uv-pt-vfmsv_s \
rv64uv-pt-vsetcfg \
rv64uv-pt-vsetcfgi \
rv64uv-pt-vsetvl \
rv64uv-pt-keepcfg \
rv64uv-pt-movz \ rv64uv-pt-movz \
rv64uv-pt-movn \ rv64uv-pt-movn \
rv64uv-pt-fmovz \ rv64uv-pt-fmovz \
@ -463,6 +485,7 @@ vecasm_pt_tests = \
rv64uv-pt-amominu_w \ rv64uv-pt-amominu_w \
rv64uv-pt-imul \ rv64uv-pt-imul \
rv64uv-pt-fma \ rv64uv-pt-fma \
rv64uv-pt-fma_many \
rv64ui-pt-vec-mul \ rv64ui-pt-vec-mul \
rv64ui-pt-vec-mulw \ rv64ui-pt-vec-mulw \
rv64ui-pt-vec-mulh \ rv64ui-pt-vec-mulh \
@ -514,7 +537,7 @@ bmarks = \
qsort.riscv \ qsort.riscv \
towers.riscv \ towers.riscv \
vvadd.riscv \ vvadd.riscv \
dgemm.riscv \ mm.riscv \
dhrystone.riscv \ dhrystone.riscv \
spmv.riscv \ spmv.riscv \
#vec-vvadd.riscv \ #vec-vvadd.riscv \
@ -603,5 +626,5 @@ bt_vvadd.riscv\
disasm := 2> disasm := 2>
which_disasm := $(shell which riscv-dis) which_disasm := $(shell which riscv-dis)
ifneq ($(which_disasm),) ifneq ($(which_disasm),)
disasm := 3>&1 1>&2 2>&3 | $(which_disasm) > disasm := 3>&1 1>&2 2>&3 | $(which_disasm) --extension=hwacha >
endif endif

2
chisel

@ -1 +1 @@
Subproject commit c5794df83af4f13bfe5126337e2f71d57054385b Subproject commit 54ad639f11a6ac3459dad4d81e007b3712bd66ba

4
csrc/emulator.cc
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@ -125,7 +125,7 @@ int main(int argc, char** argv)
} }
if (log) if (log)
tile.print(stderr, stderr); tile.print(stderr);
if (vcd) if (vcd)
tile.dump(vcdfile, trace_count); tile.dump(vcdfile, trace_count);
@ -139,7 +139,7 @@ int main(int argc, char** argv)
if (htif->exit_code()) if (htif->exit_code())
{ {
fprintf(stderr, "*** FAILED *** (code = %d) after %lld cycles\n", htif->exit_code(), (long long)trace_count); fprintf(stderr, "*** FAILED *** (code = %d, seed %d) after %lld cycles\n", htif->exit_code(), random_seed, (long long)trace_count);
ret = htif->exit_code(); ret = htif->exit_code();
} }
else if (trace_count == max_cycles) else if (trace_count == max_cycles)

82
csrc/vcs_main.cc
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@ -8,12 +8,41 @@
#include <sstream> #include <sstream>
#include <iterator> #include <iterator>
static htif_emulator_t* htif = NULL;
static unsigned htif_bytes;
static mm_t* mm = NULL;
extern "C" { extern "C" {
extern int vcs_main(int argc, char** argv);
static htif_emulator_t* htif;
static unsigned htif_bytes;
static mm_t* mm;
static const char* loadmem;
void htif_fini(vc_handle failure)
{
delete htif;
htif = NULL;
exit(vc_getScalar(failure));
}
int main(int argc, char** argv)
{
bool dramsim = false;
for (int i = 1; i < argc; i++)
{
if (!strcmp(argv[i], "+dramsim"))
dramsim = true;
else if (!strncmp(argv[i], "+loadmem=", 9))
loadmem = argv[i]+9;
}
mm = dramsim ? (mm_t*)(new mm_dramsim2_t) : (mm_t*)(new mm_magic_t);
htif = new htif_emulator_t(std::vector<std::string>(argv + 1, argv + argc));
vcs_main(argc, argv);
abort(); // should never get here
}
void memory_tick( void memory_tick(
vc_handle mem_req_val, vc_handle mem_req_val,
vc_handle mem_req_rdy, vc_handle mem_req_rdy,
@ -62,55 +91,18 @@ void memory_tick(
); );
} }
void htif_init void htif_init(vc_handle htif_width, vc_handle mem_width)
(
vc_handle htif_width,
vc_handle mem_width,
vc_handle argv,
vc_handle loadmem,
vc_handle dramsim
)
{ {
int mw = vc_4stVectorRef(mem_width)->d; int mw = vc_4stVectorRef(mem_width)->d;
mm = vc_getScalar(dramsim) ? (mm_t*)(new mm_dramsim2_t) : (mm_t*)(new mm_magic_t);
assert(mw && (mw & (mw-1)) == 0); assert(mw && (mw & (mw-1)) == 0);
mm->init(MEM_SIZE, mw/8, LINE_SIZE); mm->init(MEM_SIZE, mw/8, LINE_SIZE);
if (loadmem)
load_mem(mm->get_data(), loadmem);
vec32* w = vc_4stVectorRef(htif_width); vec32* w = vc_4stVectorRef(htif_width);
assert(w->d <= 32 && w->d % 8 == 0); // htif_tick assumes data fits in a vec32 assert(w->d <= 32 && w->d % 8 == 0); // htif_tick assumes data fits in a vec32
htif_bytes = w->d/8; htif_bytes = w->d/8;
char loadmem_str[1024];
vc_VectorToString(loadmem, loadmem_str);
if (*loadmem_str)
load_mem(mm->get_data(), loadmem_str);
char argv_str[1024];
vc_VectorToString(argv, argv_str);
if (!*argv_str)
{
if (*loadmem_str)
strcpy(argv_str, "none");
else
{
fprintf(stderr, "Usage: ./simv [host options] +argv=\"<target program> [target args]\"\n");
exit(-1);
}
}
std::vector<std::string> args;
std::stringstream ss(argv_str);
std::istream_iterator<std::string> begin(ss), end;
std::copy(begin, end, std::back_inserter<std::vector<std::string>>(args));
htif = new htif_emulator_t(args);
}
void htif_fini(vc_handle failure)
{
delete htif;
htif = NULL;
exit(vc_getScalar(failure));
} }
void htif_tick void htif_tick

2
hardfloat

@ -1 +1 @@
Subproject commit d1269259151b25e7a7a1ddc22bf85b92cd732118 Subproject commit 4a938b1aae6df5609400235448583c5c34b47da4

3
project/build.scala
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@ -31,7 +31,8 @@ object BuildSettings extends Build {
lazy val uncore = Project("uncore", file("uncore"), settings = buildSettings) dependsOn(hardfloat) lazy val uncore = Project("uncore", file("uncore"), settings = buildSettings) dependsOn(hardfloat)
lazy val rocket = Project("rocket", file("rocket"), settings = buildSettings) dependsOn(uncore) lazy val rocket = Project("rocket", file("rocket"), settings = buildSettings) dependsOn(uncore)
lazy val hwacha = Project("hwacha", file("hwacha"), settings = buildSettings) dependsOn(uncore, rocket) lazy val hwacha = Project("hwacha", file("hwacha"), settings = buildSettings) dependsOn(uncore, rocket)
lazy val referencechip = Project("referencechip", file("."), settings = buildSettings ++ chipSettings) dependsOn(rocket, hwacha) lazy val rekall = Project("rekall", file("rekall"), settings = buildSettings) dependsOn(chisel)
lazy val referencechip = Project("referencechip", file("."), settings = buildSettings ++ chipSettings) dependsOn(rocket, hwacha, rekall)
val elaborateTask = InputKey[Unit]("elaborate", "convert chisel components into backend source code") val elaborateTask = InputKey[Unit]("elaborate", "convert chisel components into backend source code")
val makeTask = InputKey[Unit]("make", "trigger backend-specific makefile command") val makeTask = InputKey[Unit]("make", "trigger backend-specific makefile command")

2
riscv-tests

@ -1 +1 @@
Subproject commit 0c98ef833db1f6eead3bd9ad083d9408d2d8decb Subproject commit 83ed3f519de9929b6551b98677047228a8ab4d0c

2
riscv-tools

@ -1 +1 @@
Subproject commit 16908b2a8dcf9e8b4e3fdf1c962e123067356dba Subproject commit 1f62b9b6b6503a6a179f5d7b12d5157437405c83

2
rocket

@ -1 +1 @@
Subproject commit 41023dc10f37aca4d501c9f9b9edb5992d8e2bd9 Subproject commit fd9bea861cf8cb83ff57c419f8a20964742baba5

69
src/main/scala/Backends.scala Normal file
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@ -0,0 +1,69 @@
package referencechip
import Chisel._
import ReferenceChipBackend._
import scala.collection.mutable.HashMap
object ReferenceChipBackend {
val initMap = new HashMap[Module, Bool]()
}
class ReferenceChipBackend extends VerilogBackend
{
initMap.clear()
override def emitPortDef(m: MemAccess, idx: Int) = {
val res = new StringBuilder()
for (node <- m.mem.inputs) {
if(node.name.contains("init"))
res.append(" .init(" + node.name + "),\n")
}
(if (idx == 0) res.toString else "") + super.emitPortDef(m, idx)
}
def addMemPin(c: Module) = {
for (mod <- Module.components; node <- mod.nodes) {
if (node.isInstanceOf[Mem[ _ ]] && node.component != null && node.asInstanceOf[Mem[_]].seqRead) {
connectMemPin(c, node.component, node)
}
}
}
def connectMemPin(topC: Module, c: Module, p: Node): Unit = {
var isNewPin = false
val compInitPin =
if (initMap.contains(c)) {
initMap(c)
} else {
isNewPin = true
val res = Bool(INPUT)
res.isIo = true
res
}
p.inputs += compInitPin
if (isNewPin) {
compInitPin.setName("init")
c.io.asInstanceOf[Bundle] += compInitPin
compInitPin.component = c
initMap += (c -> compInitPin)
connectMemPin(topC, c.parent, compInitPin)
}
}
def addTopLevelPin(c: Module) = {
val init = Bool(INPUT)
init.isIo = true
init.setName("init")
init.component = c
c.io.asInstanceOf[Bundle] += init
initMap += (c -> init)
}
transforms += ((c: Module) => addTopLevelPin(c))
transforms += ((c: Module) => addMemPin(c))
transforms += ((c: Module) => collectNodesIntoComp(initializeDFS))
}
class Fame1ReferenceChipBackend extends ReferenceChipBackend with Fame1Transform

204
src/main/scala/RocketChip.scala
View File

@ -4,122 +4,89 @@ import Chisel._
import uncore._ import uncore._
import rocket._ import rocket._
import rocket.Util._ import rocket.Util._
import ReferenceChipBackend._
import scala.collection.mutable.ArrayBuffer
import scala.collection.mutable.HashMap
object DummyTopLevelConstants { object DesignSpaceConstants {
val NTILES = 1 val NTILES = 1
val NBANKS = 1 val NBANKS = 1
val HTIF_WIDTH = 16 val HTIF_WIDTH = 16
val ENABLE_SHARING = true val ENABLE_SHARING = true
val ENABLE_CLEAN_EXCLUSIVE = true val ENABLE_CLEAN_EXCLUSIVE = true
val USE_DRAMSIDE_LLC = true
val HAS_FPU = true val HAS_FPU = true
val NL2_REL_XACTS = 1 val NL2_REL_XACTS = 1
val NL2_ACQ_XACTS = 7 val NL2_ACQ_XACTS = 7
val NMSHRS = 2 val NMSHRS = 2
} }
import DummyTopLevelConstants._ object MemoryConstants {
val CACHE_DATA_SIZE_IN_BYTES = 1 << 6 //TODO: How configurable is this really?
object ReferenceChipBackend { val OFFSET_BITS = log2Up(CACHE_DATA_SIZE_IN_BYTES)
val initMap = new HashMap[Module, Bool]() val PADDR_BITS = 32
val VADDR_BITS = 43
val PGIDX_BITS = 13
val ASID_BITS = 7
val PERM_BITS = 6
val MEM_TAG_BITS = 5
val MEM_DATA_BITS = 128
val MEM_ADDR_BITS = PADDR_BITS - OFFSET_BITS
val MEM_DATA_BEATS = 4
} }
class ReferenceChipBackend extends VerilogBackend object TileLinkSizeConstants {
{ val WRITE_MASK_BITS = 6
initMap.clear() val SUBWORD_ADDR_BITS = 3
override def emitPortDef(m: MemAccess, idx: Int) = { val ATOMIC_OP_BITS = 4
val res = new StringBuilder()
for (node <- m.mem.inputs) {
if(node.name.contains("init"))
res.append(" .init(" + node.name + "),\n")
}
(if (idx == 0) res.toString else "") + super.emitPortDef(m, idx)
}
def addMemPin(c: Module) = {
for (node <- Module.nodes) {
if (node.isInstanceOf[Mem[ _ ]] && node.component != null && node.asInstanceOf[Mem[_]].seqRead) {
connectMemPin(c, node.component, node)
}
}
}
def connectMemPin(topC: Module, c: Module, p: Node): Unit = {
var isNewPin = false
val compInitPin =
if (initMap.contains(c)) {
initMap(c)
} else {
isNewPin = true
val res = Bool(INPUT)
res.isIo = true
res
}
p.inputs += compInitPin
if (isNewPin) {
compInitPin.setName("init")
c.io.asInstanceOf[Bundle] += compInitPin
compInitPin.component = c
initMap += (c -> compInitPin)
connectMemPin(topC, c.parent, compInitPin)
}
}
def addTopLevelPin(c: Module) = {
val init = Bool(INPUT)
init.isIo = true
init.setName("init")
init.component = c
c.io.asInstanceOf[Bundle] += init
initMap += (c -> init)
}
transforms += ((c: Module) => addTopLevelPin(c))
transforms += ((c: Module) => addMemPin(c))
transforms += ((c: Module) => collectNodesIntoComp(initializeDFS))
} }
import DesignSpaceConstants._
import MemoryConstants._
import TileLinkSizeConstants._
class OuterMemorySystem(htif_width: Int)(implicit conf: UncoreConfiguration) extends Module class OuterMemorySystem(htif_width: Int)(implicit conf: UncoreConfiguration) extends Module
{ {
implicit val (tl, ln, l2) = (conf.tl, conf.tl.ln, conf.l2) implicit val (tl, ln, l2, mif) = (conf.tl, conf.tl.ln, conf.l2, conf.mif)
val io = new Bundle { val io = new Bundle {
val tiles = Vec.fill(conf.nTiles){new TileLinkIO}.flip val tiles = Vec.fill(conf.nTiles){new TileLinkIO}.flip
val htif = (new TileLinkIO).flip val htif = (new TileLinkIO).flip
val incoherent = Vec.fill(ln.nClients){Bool()}.asInput val incoherent = Vec.fill(ln.nClients){Bool()}.asInput
val mem = new ioMem val mem = new MemIO
val mem_backup = new ioMemSerialized(htif_width) val mem_backup = new MemSerializedIO(htif_width)
val mem_backup_en = Bool(INPUT) val mem_backup_en = Bool(INPUT)
} }
val llc_tag_leaf = Mem(Bits(width = 152), 512, seqRead = true) val refill_cycles = tl.dataBits/mif.dataBits
val llc_data_leaf = Mem(Bits(width = 64), 4096, seqRead = true) val (llc, masterEndpoints) = if(conf.useDRAMSideLLC) {
val llc = Module(new DRAMSideLLC(sets=512, ways=8, outstanding=16, tagLeaf=llc_tag_leaf, dataLeaf=llc_data_leaf)) val llc_tag_leaf = Mem(Bits(width = 152), 512, seqRead = true)
//val llc = Module(new DRAMSideLLCNull(NL2_REL_XACTS+NL2_ACQ_XACTS, REFILL_CYCLES)) val llc_data_leaf = Mem(Bits(width = 64), 4096, seqRead = true)
val mem_serdes = Module(new MemSerdes(htif_width)) val llc = Module(new DRAMSideLLC(sets=512, ways=8, outstanding=16,
refill_cycles=refill_cycles, tagLeaf=llc_tag_leaf, dataLeaf=llc_data_leaf))
val mes = (0 until ln.nMasters).map(i => Module(new L2CoherenceAgent(i)))
(llc, mes)
} else {
val llc = Module(new DRAMSideLLCNull(16, refill_cycles))
val mes = (0 until ln.nMasters).map(i => Module(new L2HellaCache(i)))
(llc, mes)
}
val masterEndpoints = (0 until ln.nMasters).map(i => Module(new L2CoherenceAgent(i)))
val net = Module(new ReferenceChipCrossbarNetwork) val net = Module(new ReferenceChipCrossbarNetwork)
net.io.clients zip (io.tiles :+ io.htif) map { case (net, end) => net <> end } net.io.clients zip (io.tiles :+ io.htif) map { case (net, end) => net <> end }
net.io.masters zip (masterEndpoints.map(_.io.client)) map { case (net, end) => net <> end } net.io.masters zip (masterEndpoints.map(_.io.inner)) map { case (net, end) => net <> end }
masterEndpoints.map{ _.io.incoherent zip io.incoherent map { case (m, c) => m := c } } masterEndpoints.map{ _.io.incoherent zip io.incoherent map { case (m, c) => m := c } }
val conv = Module(new MemIOUncachedTileLinkIOConverter(2)) val conv = Module(new MemIOUncachedTileLinkIOConverter(2))
if(ln.nMasters > 1) { if(ln.nMasters > 1) {
val arb = Module(new UncachedTileLinkIOArbiterThatAppendsArbiterId(ln.nMasters)) val arb = Module(new UncachedTileLinkIOArbiterThatAppendsArbiterId(ln.nMasters))
arb.io.in zip masterEndpoints.map(_.io.master) map { case (arb, cache) => arb <> cache } arb.io.in zip masterEndpoints.map(_.io.outer) map { case (arb, cache) => arb <> cache }
conv.io.uncached <> arb.io.out conv.io.uncached <> arb.io.out
} else { } else {
conv.io.uncached <> masterEndpoints.head.io.master conv.io.uncached <> masterEndpoints.head.io.outer
} }
llc.io.cpu.req_cmd <> Queue(conv.io.mem.req_cmd) llc.io.cpu.req_cmd <> Queue(conv.io.mem.req_cmd)
llc.io.cpu.req_data <> Queue(conv.io.mem.req_data, REFILL_CYCLES) llc.io.cpu.req_data <> Queue(conv.io.mem.req_data, refill_cycles)
conv.io.mem.resp <> llc.io.cpu.resp conv.io.mem.resp <> llc.io.cpu.resp
// mux between main and backup memory ports // mux between main and backup memory ports
val mem_serdes = Module(new MemSerdes(htif_width))
val mem_cmdq = Module(new Queue(new MemReqCmd, 2)) val mem_cmdq = Module(new Queue(new MemReqCmd, 2))
mem_cmdq.io.enq <> llc.io.mem.req_cmd mem_cmdq.io.enq <> llc.io.mem.req_cmd
mem_cmdq.io.deq.ready := Mux(io.mem_backup_en, mem_serdes.io.wide.req_cmd.ready, io.mem.req_cmd.ready) mem_cmdq.io.deq.ready := Mux(io.mem_backup_en, mem_serdes.io.wide.req_cmd.ready, io.mem.req_cmd.ready)
@ -128,7 +95,7 @@ class OuterMemorySystem(htif_width: Int)(implicit conf: UncoreConfiguration) ext
mem_serdes.io.wide.req_cmd.valid := mem_cmdq.io.deq.valid && io.mem_backup_en mem_serdes.io.wide.req_cmd.valid := mem_cmdq.io.deq.valid && io.mem_backup_en
mem_serdes.io.wide.req_cmd.bits := mem_cmdq.io.deq.bits mem_serdes.io.wide.req_cmd.bits := mem_cmdq.io.deq.bits
val mem_dataq = Module(new Queue(new MemData, REFILL_CYCLES)) val mem_dataq = Module(new Queue(new MemData, refill_cycles))
mem_dataq.io.enq <> llc.io.mem.req_data mem_dataq.io.enq <> llc.io.mem.req_data
mem_dataq.io.deq.ready := Mux(io.mem_backup_en, mem_serdes.io.wide.req_data.ready, io.mem.req_data.ready) mem_dataq.io.deq.ready := Mux(io.mem_backup_en, mem_serdes.io.wide.req_data.ready, io.mem.req_data.ready)
io.mem.req_data.valid := mem_dataq.io.deq.valid && !io.mem_backup_en io.mem.req_data.valid := mem_dataq.io.deq.valid && !io.mem_backup_en
@ -143,21 +110,21 @@ class OuterMemorySystem(htif_width: Int)(implicit conf: UncoreConfiguration) ext
io.mem_backup <> mem_serdes.io.narrow io.mem_backup <> mem_serdes.io.narrow
} }
case class UncoreConfiguration(l2: L2CoherenceAgentConfiguration, tl: TileLinkConfiguration, nTiles: Int, nBanks: Int, bankIdLsb: Int, nSCR: Int) case class UncoreConfiguration(l2: L2CacheConfig, tl: TileLinkConfiguration, mif: MemoryIFConfiguration, nTiles: Int, nBanks: Int, bankIdLsb: Int, nSCR: Int, offsetBits: Int, useDRAMSideLLC: Boolean)
class Uncore(htif_width: Int)(implicit conf: UncoreConfiguration) extends Module class Uncore(htif_width: Int)(implicit conf: UncoreConfiguration) extends Module
{ {
implicit val tl = conf.tl implicit val (tl, mif) = (conf.tl, conf.mif)
val io = new Bundle { val io = new Bundle {
val host = new HostIO(htif_width) val host = new HostIO(htif_width)
val mem = new ioMem val mem = new MemIO
val tiles = Vec.fill(conf.nTiles){new TileLinkIO}.flip val tiles = Vec.fill(conf.nTiles){new TileLinkIO}.flip
val htif = Vec.fill(conf.nTiles){new HTIFIO(conf.nTiles)}.flip val htif = Vec.fill(conf.nTiles){new HTIFIO(conf.nTiles)}.flip
val incoherent = Vec.fill(conf.nTiles){Bool()}.asInput val incoherent = Vec.fill(conf.nTiles){Bool()}.asInput
val mem_backup = new ioMemSerialized(htif_width) val mem_backup = new MemSerializedIO(htif_width)
val mem_backup_en = Bool(INPUT) val mem_backup_en = Bool(INPUT)
} }
val htif = Module(new HTIF(htif_width, CSRs.reset, conf.nSCR)) val htif = Module(new HTIF(htif_width, CSRs.reset, conf.nSCR, conf.offsetBits))
val outmemsys = Module(new OuterMemorySystem(htif_width)) val outmemsys = Module(new OuterMemorySystem(htif_width))
val incoherentWithHtif = (io.incoherent :+ Bool(true).asInput) val incoherentWithHtif = (io.incoherent :+ Bool(true).asInput)
outmemsys.io.incoherent := incoherentWithHtif outmemsys.io.incoherent := incoherentWithHtif
@ -167,21 +134,15 @@ class Uncore(htif_width: Int)(implicit conf: UncoreConfiguration) extends Module
// Add networking headers and endpoint queues // Add networking headers and endpoint queues
def convertAddrToBank(addr: Bits): UInt = { def convertAddrToBank(addr: Bits): UInt = {
require(conf.bankIdLsb + log2Up(conf.nBanks) < MEM_ADDR_BITS, {println("Invalid bits for bank multiplexing.")}) require(conf.bankIdLsb + log2Up(conf.nBanks) < conf.mif.addrBits, {println("Invalid bits for bank multiplexing.")})
addr(conf.bankIdLsb + log2Up(conf.nBanks) - 1, conf.bankIdLsb) addr(conf.bankIdLsb + log2Up(conf.nBanks) - 1, conf.bankIdLsb)
} }
(outmemsys.io.tiles :+ outmemsys.io.htif).zip(io.tiles :+ htif.io.mem).zipWithIndex.map { (outmemsys.io.tiles :+ outmemsys.io.htif).zip(io.tiles :+ htif.io.mem).zipWithIndex.map {
case ((outer, client), i) => case ((outer, client), i) =>
outer.acquire <> TileLinkHeaderAppender(client.acquire, i, conf.nBanks, convertAddrToBank _) outer.acquire <> Queue(TileLinkHeaderOverwriter(client.acquire, i, conf.nBanks, convertAddrToBank _))
outer.release <> TileLinkHeaderAppender(client.release, i, conf.nBanks, convertAddrToBank _) outer.release <> Queue(TileLinkHeaderOverwriter(client.release, i, conf.nBanks, convertAddrToBank _))
outer.finish <> Queue(TileLinkHeaderOverwriter(client.finish, i, true))
val grant_ack_q = Queue(client.grant_ack)
outer.grant_ack.valid := grant_ack_q.valid
outer.grant_ack.bits := grant_ack_q.bits
outer.grant_ack.bits.header.src := UInt(i)
grant_ack_q.ready := outer.grant_ack.ready
client.grant <> Queue(outer.grant, 1, pipe = true) client.grant <> Queue(outer.grant, 1, pipe = true)
client.probe <> Queue(outer.probe) client.probe <> Queue(outer.probe)
} }
@ -216,12 +177,12 @@ class Uncore(htif_width: Int)(implicit conf: UncoreConfiguration) extends Module
io.host.debug_stats_pcr := htif.io.host.debug_stats_pcr io.host.debug_stats_pcr := htif.io.host.debug_stats_pcr
} }
class TopIO(htifWidth: Int) extends Bundle { class TopIO(htifWidth: Int)(implicit conf: MemoryIFConfiguration) extends Bundle {
val host = new HostIO(htifWidth) val host = new HostIO(htifWidth)
val mem = new ioMem val mem = new MemIO
} }
class VLSITopIO(htifWidth: Int) extends TopIO(htifWidth) { class VLSITopIO(htifWidth: Int)(implicit conf: MemoryIFConfiguration) extends TopIO(htifWidth)(conf) {
val mem_backup_en = Bool(INPUT) val mem_backup_en = Bool(INPUT)
val in_mem_ready = Bool(OUTPUT) val in_mem_ready = Bool(OUTPUT)
val in_mem_valid = Bool(INPUT) val in_mem_valid = Bool(INPUT)
@ -231,38 +192,48 @@ class VLSITopIO(htifWidth: Int) extends TopIO(htifWidth) {
class MemDessert extends Module { class MemDessert extends Module {
implicit val mif = MemoryIFConfiguration(MEM_ADDR_BITS, MEM_DATA_BITS, MEM_TAG_BITS, MEM_DATA_BEATS)
val io = new MemDesserIO(HTIF_WIDTH) val io = new MemDesserIO(HTIF_WIDTH)
val x = Module(new MemDesser(HTIF_WIDTH)) val x = Module(new MemDesser(HTIF_WIDTH))
io.narrow <> x.io.narrow io.narrow <> x.io.narrow
io.wide <> x.io.wide io.wide <> x.io.wide
} }
class Top extends Module { class Top extends Module {
val co = if(ENABLE_SHARING) { val dir = new FullRepresentation(NTILES+1)
if(ENABLE_CLEAN_EXCLUSIVE) new MESICoherence val co = if(ENABLE_SHARING) {
else new MSICoherence if(ENABLE_CLEAN_EXCLUSIVE) new MESICoherence(dir)
else new MSICoherence(dir)
} else { } else {
if(ENABLE_CLEAN_EXCLUSIVE) new MEICoherence if(ENABLE_CLEAN_EXCLUSIVE) new MEICoherence(dir)
else new MICoherence else new MICoherence(dir)
} }
implicit val ln = LogicalNetworkConfiguration(log2Up(NTILES)+1, NBANKS, NTILES+1) implicit val ln = LogicalNetworkConfiguration(log2Up(NTILES)+1, NBANKS, NTILES+1)
implicit val tl = TileLinkConfiguration(co, ln, log2Up(NL2_REL_XACTS+NL2_ACQ_XACTS), 2*log2Up(NMSHRS*NTILES+1), MEM_DATA_BITS) implicit val as = AddressSpaceConfiguration(PADDR_BITS, VADDR_BITS, PGIDX_BITS, ASID_BITS, PERM_BITS)
implicit val l2 = L2CoherenceAgentConfiguration(tl, NL2_REL_XACTS, NL2_ACQ_XACTS) implicit val tl = TileLinkConfiguration(co = co, ln = ln,
implicit val uc = UncoreConfiguration(l2, tl, NTILES, NBANKS, bankIdLsb = 5, nSCR = 64) addrBits = as.paddrBits-OFFSET_BITS,
clientXactIdBits = log2Up(NL2_REL_XACTS+NL2_ACQ_XACTS),
masterXactIdBits = 2*log2Up(NMSHRS*NTILES+1),
dataBits = CACHE_DATA_SIZE_IN_BYTES*8,
writeMaskBits = WRITE_MASK_BITS,
wordAddrBits = SUBWORD_ADDR_BITS,
atomicOpBits = ATOMIC_OP_BITS)
implicit val l2 = L2CacheConfig(512, 8, 1, 1, NL2_REL_XACTS, NL2_ACQ_XACTS, tl, as)
implicit val mif = MemoryIFConfiguration(MEM_ADDR_BITS, MEM_DATA_BITS, MEM_TAG_BITS, MEM_DATA_BEATS)
implicit val uc = UncoreConfiguration(l2, tl, mif, NTILES, NBANKS, bankIdLsb = 5, nSCR = 64, offsetBits = OFFSET_BITS, useDRAMSideLLC = USE_DRAMSIDE_LLC)
val isize = RangeParam("i",7,7,9) val ic = ICacheConfig(sets = 128, assoc = 2, ntlb = 8, tl = tl, as = as, btb = BTBConfig(as, 64, 2))
val ic = ICacheConfig(math.pow(2, isize.getValue).toInt, 2, ntlb = 8, nbtb = 38) val dc = DCacheConfig(sets = 128, ways = 4,
tl = tl, as = as,
val dsize = RangeParam("d",7,7,9) ntlb = 8, nmshr = NMSHRS, nrpq = 16, nsdq = 17,
val dc = DCacheConfig(math.pow(2, dsize.getValue).toInt, 4, ntlb = 8, nmshr = NMSHRS, nrpq = 16, nsdq = 17, states = co.nClientStates) reqtagbits = -1, databits = -1)
//val dc = DCacheConfig(128, 4, ntlb = 8, nmshr = NMSHRS, nrpq = 16, nsdq = 17, states = co.nClientStates) val vic = ICacheConfig(sets = 128, assoc = 1, tl = tl, as = as, btb = BTBConfig(as, 8))
val hc = hwacha.HwachaConfiguration(as, vic, dc, 8, 256, ndtlb = 8, nptlb = 2)
val vic = ICacheConfig(128, 1) val fpu = if (HAS_FPU) Some(FPUConfig(sfmaLatency = 2, dfmaLatency = 3)) else None
val hc = hwacha.HwachaConfiguration(vic, dc, 8, 256, ndtlb = 8, nptlb = 2) val rc = RocketConfiguration(tl, as, ic, dc, fpu
val rc = RocketConfiguration(tl, ic, dc, // rocc = (c: RocketConfiguration) => (new hwacha.Hwacha(hc, c))
fpu = HAS_FPU
//,rocc = (c: RocketConfiguration) => (new hwacha.Hwacha(hc, c))
) )
val io = new VLSITopIO(HTIF_WIDTH) val io = new VLSITopIO(HTIF_WIDTH)
@ -278,11 +249,12 @@ class Top extends Module {
resetSigs(i) := hl.reset resetSigs(i) := hl.reset
val tile = tileList(i) val tile = tileList(i)
tile.io.tilelink <> tl tile.io.tilelink <> tl
il := hl.reset il := hl.reset
tile.io.host.id := UInt(i)
tile.io.host.reset := Reg(next=Reg(next=hl.reset)) tile.io.host.reset := Reg(next=Reg(next=hl.reset))
tile.io.host.pcr_req <> Queue(hl.pcr_req, 1) tile.io.host.pcr_req <> Queue(hl.pcr_req, 1)
tile.io.host.id := i
hl.pcr_rep <> Queue(tile.io.host.pcr_rep, 1) hl.pcr_rep <> Queue(tile.io.host.pcr_rep, 1)
hl.ipi_req <> Queue(tile.io.host.ipi_req, 1) hl.ipi_req <> Queue(tile.io.host.ipi_req, 1)
tile.io.host.ipi_rep <> Queue(hl.ipi_rep, 1) tile.io.host.ipi_rep <> Queue(hl.ipi_rep, 1)

106
src/main/scala/fpga.scala
View File

@ -1,51 +1,47 @@
package referencechip package referencechip
import Chisel._ import Chisel._
import Node._
import uncore._ import uncore._
import rocket._ import rocket._
import DRAMModel._
import DRAMModel.MemModelConstants._
class FPGAOuterMemorySystem(htif_width: Int)(implicit conf: UncoreConfiguration) extends Module class FPGAOuterMemorySystem(htif_width: Int)(implicit conf: FPGAUncoreConfiguration)
{ extends Module {
implicit val (tl, ln, l2) = (conf.tl, conf.tl.ln, conf.l2) implicit val (tl, ln, l2, mif) = (conf.tl, conf.tl.ln, conf.l2, conf.mif)
val io = new Bundle { val io = new Bundle {
val tiles = Vec.fill(conf.nTiles){new TileLinkIO}.flip val tiles = Vec.fill(conf.nTiles){new TileLinkIO}.flip
val htif = (new TileLinkIO).flip val htif = (new TileLinkIO).flip
val incoherent = Vec.fill(ln.nClients){Bool()}.asInput val incoherent = Vec.fill(ln.nClients){Bool()}.asInput
val mem = new ioMem val mem = new MemIO
} }
val masterEndpoints = (0 until ln.nMasters).map(i => Module(new L2CoherenceAgent(i))) val master = Module(new L2CoherenceAgent(0))
val net = Module(new ReferenceChipCrossbarNetwork) val net = Module(new ReferenceChipCrossbarNetwork)
net.io.clients zip (io.tiles :+ io.htif) map { case (net, end) => net <> end } net.io.clients zip (io.tiles :+ io.htif) map { case (net, end) => net <> end }
net.io.masters zip (masterEndpoints.map(_.io.client)) map { case (net, end) => net <> end } net.io.masters.head <> master.io.inner
masterEndpoints.map{ _.io.incoherent zip io.incoherent map { case (m, c) => m := c } } master.io.incoherent zip io.incoherent map { case (m, c) => m := c }
val conv = Module(new MemIOUncachedTileLinkIOConverter(2)) val conv = Module(new MemIOUncachedTileLinkIOConverter(2))
if(ln.nMasters > 1) { conv.io.uncached <> master.io.outer
val arb = Module(new UncachedTileLinkIOArbiterThatAppendsArbiterId(ln.nMasters)) io.mem.req_cmd <> Queue(conv.io.mem.req_cmd, 2)
arb.io.in zip masterEndpoints.map(_.io.master) map { case (arb, cache) => arb <> cache } io.mem.req_data <> Queue(conv.io.mem.req_data, tl.dataBits/mif.dataBits)
conv.io.uncached <> arb.io.out
} else {
conv.io.uncached <> masterEndpoints.head.io.master
}
io.mem.req_cmd <> Queue(conv.io.mem.req_cmd)
io.mem.req_data <> Queue(conv.io.mem.req_data, REFILL_CYCLES)
conv.io.mem.resp <> Queue(io.mem.resp) conv.io.mem.resp <> Queue(io.mem.resp)
} }
class FPGAUncore(htif_width: Int)(implicit conf: UncoreConfiguration) extends Module case class FPGAUncoreConfiguration(l2: L2CoherenceAgentConfiguration, tl: TileLinkConfiguration, mif: MemoryIFConfiguration, nTiles: Int, nSCR: Int, offsetBits: Int)
{
implicit val (tl, ln) = (conf.tl, conf.tl.ln) class FPGAUncore(htif_width: Int)(implicit conf: FPGAUncoreConfiguration)
extends Module {
implicit val (tl, ln, mif) = (conf.tl, conf.tl.ln, conf.mif)
val io = new Bundle { val io = new Bundle {
val host = new HostIO(htif_width) val host = new HostIO(htif_width)
val mem = new ioMem val mem = new MemIO
val tiles = Vec.fill(conf.nTiles){new TileLinkIO}.flip val tiles = Vec.fill(conf.nTiles){new TileLinkIO}.flip
val htif = Vec.fill(conf.nTiles){new HTIFIO(conf.nTiles)}.flip val htif = Vec.fill(conf.nTiles){new HTIFIO(conf.nTiles)}.flip
val incoherent = Vec.fill(conf.nTiles){Bool()}.asInput val incoherent = Vec.fill(conf.nTiles){Bool()}.asInput
} }
val htif = Module(new HTIF(htif_width, CSRs.reset, conf.nSCR)) val htif = Module(new HTIF(htif_width, CSRs.reset, conf.nSCR, conf.offsetBits))
val outmemsys = Module(new FPGAOuterMemorySystem(htif_width)) val outmemsys = Module(new FPGAOuterMemorySystem(htif_width))
val incoherentWithHtif = (io.incoherent :+ Bool(true).asInput) val incoherentWithHtif = (io.incoherent :+ Bool(true).asInput)
outmemsys.io.incoherent := incoherentWithHtif outmemsys.io.incoherent := incoherentWithHtif
@ -53,22 +49,11 @@ class FPGAUncore(htif_width: Int)(implicit conf: UncoreConfiguration) extends Mo
outmemsys.io.mem <> io.mem outmemsys.io.mem <> io.mem
// Add networking headers and endpoint queues // Add networking headers and endpoint queues
def convertAddrToBank(addr: Bits): UInt = {
require(conf.bankIdLsb + log2Up(conf.nBanks) < MEM_ADDR_BITS, {println("Invalid bits for bank multiplexing.")})
addr(conf.bankIdLsb + log2Up(conf.nBanks) - 1, conf.bankIdLsb)
}
(outmemsys.io.tiles :+ outmemsys.io.htif).zip(io.tiles :+ htif.io.mem).zipWithIndex.map { (outmemsys.io.tiles :+ outmemsys.io.htif).zip(io.tiles :+ htif.io.mem).zipWithIndex.map {
case ((outer, client), i) => case ((outer, client), i) =>
outer.acquire <> TileLinkHeaderAppender(client.acquire, i, conf.nBanks, convertAddrToBank _) outer.acquire <> Queue(TileLinkHeaderOverwriter(client.acquire, i, false))
outer.release <> TileLinkHeaderAppender(client.release, i, conf.nBanks, convertAddrToBank _) outer.release <> Queue(TileLinkHeaderOverwriter(client.release, i, false))
outer.finish <> Queue(TileLinkHeaderOverwriter(client.finish, i, true))
val grant_ack_q = Queue(client.grant_ack)
outer.grant_ack.valid := grant_ack_q.valid
outer.grant_ack.bits := grant_ack_q.bits
outer.grant_ack.bits.header.src := UInt(i)
grant_ack_q.ready := outer.grant_ack.ready
client.grant <> Queue(outer.grant, 1, pipe = true) client.grant <> Queue(outer.grant, 1, pipe = true)
client.probe <> Queue(outer.probe) client.probe <> Queue(outer.probe)
} }
@ -77,27 +62,40 @@ class FPGAUncore(htif_width: Int)(implicit conf: UncoreConfiguration) extends Mo
htif.io.host.in <> io.host.in htif.io.host.in <> io.host.in
} }
class FPGATopIO(htifWidth: Int) extends TopIO(htifWidth) import MemoryConstants._
import TileLinkSizeConstants._
import MemoryConstants._
class FPGATopIO(htifWidth: Int)(implicit conf: MemoryIFConfiguration) extends TopIO(htifWidth)(conf)
class FPGATop extends Module { class FPGATop extends Module {
val htif_width = 16
val co = new MESICoherence
val ntiles = 1 val ntiles = 1
val nbanks = 1
val nmshrs = 2 val nmshrs = 2
implicit val ln = LogicalNetworkConfiguration(log2Up(ntiles)+1, nbanks, ntiles+1) val htif_width = 16
implicit val tl = TileLinkConfiguration(co, ln, log2Up(1+8), 2*log2Up(nmshrs*ntiles+1), MEM_DATA_BITS)
val co = new MESICoherence(new FullRepresentation(ntiles+1))
implicit val ln = LogicalNetworkConfiguration(log2Up(ntiles)+1, 1, ntiles+1)
implicit val as = AddressSpaceConfiguration(PADDR_BITS, VADDR_BITS, PGIDX_BITS, ASID_BITS, PERM_BITS)
implicit val tl = TileLinkConfiguration(co = co, ln = ln,
addrBits = as.paddrBits-OFFSET_BITS,
clientXactIdBits = log2Up(1+8),
masterXactIdBits = 2*log2Up(2*1+1),
dataBits = CACHE_DATA_SIZE_IN_BYTES*8,
writeMaskBits = WRITE_MASK_BITS,
wordAddrBits = SUBWORD_ADDR_BITS,
atomicOpBits = ATOMIC_OP_BITS)
implicit val l2 = L2CoherenceAgentConfiguration(tl, 1, 8) implicit val l2 = L2CoherenceAgentConfiguration(tl, 1, 8)
implicit val uc = UncoreConfiguration(l2, tl, ntiles, nbanks, bankIdLsb = 5, nSCR = 64) implicit val mif = MemoryIFConfiguration(MEM_ADDR_BITS, MEM_DATA_BITS, MEM_TAG_BITS, 4)
implicit val uc = FPGAUncoreConfiguration(l2, tl, mif, ntiles, nSCR = 64, offsetBits = OFFSET_BITS)
val ic = ICacheConfig(64, 1, ntlb = 4, nbtb = 4) val ic = ICacheConfig(64, 1, ntlb = 4, tl = tl, as = as, btb = BTBConfig(as, 8, 2))
val dc = DCacheConfig(64, 1, ntlb = 4, nmshr = 2, nrpq = 16, nsdq = 17, states = co.nClientStates) val dc = DCacheConfig(64, 1, ntlb = 4, nmshr = 2, nrpq = 16, nsdq = 17, tl = tl, as = as, reqtagbits = -1, databits = -1)
val rc = RocketConfiguration(tl, ic, dc, val rc = RocketConfiguration(tl, as, ic, dc, fpu = None,
fastMulDiv = false, fastMulDiv = false)
fpu = false)
val io = new FPGATopIO(htif_width) val io = new FPGATopIO(htif_width)
val resetSigs = Vec.fill(uc.nTiles){Bool()} val resetSigs = Vec.fill(uc.nTiles){Bool()}
val tileList = (0 until uc.nTiles).map(r => Module(new Tile(resetSignal = resetSigs(r))(rc))) val tileList = (0 until uc.nTiles).map(r => Module(new Tile(resetSignal = resetSigs(r))(rc)))
val uncore = Module(new FPGAUncore(htif_width)) val uncore = Module(new FPGAUncore(htif_width))
@ -119,9 +117,9 @@ class FPGATop extends Module {
hl.ipi_req <> Queue(tile.io.host.ipi_req) hl.ipi_req <> Queue(tile.io.host.ipi_req)
tile.io.host.ipi_rep <> Queue(hl.ipi_rep) tile.io.host.ipi_rep <> Queue(hl.ipi_rep)
} }
io.host <> uncore.io.host uncore.io.host <> io.host
io.mem <> uncore.io.mem uncore.io.mem <> io.mem
} }
abstract class AXISlave extends Module { abstract class AXISlave extends Module {
@ -175,7 +173,7 @@ class Slave extends AXISlave
// write cr1 -> mem.resp (nonblocking) // write cr1 -> mem.resp (nonblocking)
val in_count = Reg(init=UInt(0, log2Up(memw/dw))) val in_count = Reg(init=UInt(0, log2Up(memw/dw)))
val rf_count = Reg(init=UInt(0, log2Up(REFILL_CYCLES))) val rf_count = Reg(init=UInt(0, log2Up(CACHE_DATA_SIZE_IN_BYTES*8/memw)))
require(memw % dw == 0 && isPow2(memw/dw)) require(memw % dw == 0 && isPow2(memw/dw))
val in_reg = Reg(top.io.mem.resp.bits.data) val in_reg = Reg(top.io.mem.resp.bits.data)
top.io.mem.resp.bits.data := Cat(io.in.bits, in_reg(in_reg.getWidth-1,dw)) top.io.mem.resp.bits.data := Cat(io.in.bits, in_reg(in_reg.getWidth-1,dw))

154
src/main/scala/network.scala
View File

@ -5,115 +5,43 @@ import uncore._
import scala.reflect._ import scala.reflect._
import scala.reflect.runtime.universe._ import scala.reflect.runtime.universe._
object TileLinkHeaderAppender { object TileLinkHeaderOverwriter {
def apply[T <: ClientSourcedMessage with HasPhysicalAddress, U <: ClientSourcedMessage with HasTileLinkData](in: PairedDataIO[LogicalNetworkIO[T],LogicalNetworkIO[U]], clientId: Int, nBanks: Int, addrConvert: Bits => UInt)(implicit conf: TileLinkConfiguration) = { def apply[T <: ClientSourcedMessage](in: DecoupledIO[LogicalNetworkIO[T]], clientId: Int, passThrough: Boolean)(implicit conf: TileLinkConfiguration): DecoupledIO[LogicalNetworkIO[T]] = {
val shim = Module(new TileLinkHeaderAppender(in.meta.bits.payload, in.data.bits.payload, clientId, nBanks, addrConvert)) val out = in.clone.asDirectionless
shim.io.in <> in out.bits.payload := in.bits.payload
shim.io.out out.bits.header.src := UInt(clientId)
out.bits.header.dst := (if(passThrough) in.bits.header.dst else UInt(0))
out.valid := in.valid
in.ready := out.ready
out
} }
def apply[T <: ClientSourcedMessage with HasPhysicalAddress](in: DecoupledIO[LogicalNetworkIO[T]], clientId: Int, nBanks: Int, addrConvert: Bits => UInt)(implicit conf: TileLinkConfiguration) = { def apply[T <: ClientSourcedMessage with HasPhysicalAddress](in: DecoupledIO[LogicalNetworkIO[T]], clientId: Int, nBanks: Int, addrConvert: UInt => UInt)(implicit conf: TileLinkConfiguration): DecoupledIO[LogicalNetworkIO[T]] = {
val shim = Module(new TileLinkHeaderAppender(in.bits.payload.clone, new AcquireData, clientId, nBanks, addrConvert)) val out: DecoupledIO[LogicalNetworkIO[T]] = apply(in, clientId, false)
shim.io.in.meta <> in out.bits.header.dst := (if(nBanks > 1) addrConvert(in.bits.payload.addr) else UInt(0))
shim.io.out.meta out
} }
} }
class TileLinkHeaderAppender[T <: ClientSourcedMessage with HasPhysicalAddress, U <: ClientSourcedMessage with HasTileLinkData](mType: T, dType: U, clientId: Int, nBanks: Int, addrConvert: Bits => UInt)(implicit conf: TileLinkConfiguration) extends Module { class ReferenceChipCrossbarNetwork(implicit conf: TileLinkConfiguration)
implicit val ln = conf.ln extends LogicalNetwork[TileLinkIO]()(conf.ln) {
val io = new Bundle { implicit val (ln, co) = (conf.ln, conf.co)
val in = new PairedDataIO(new LogicalNetworkIO(mType), new LogicalNetworkIO(dType)).flip
val out = new PairedDataIO(new LogicalNetworkIO(mType), new LogicalNetworkIO(dType))
}
val meta_q = Queue(io.in.meta)
val data_q = Queue(io.in.data)
if(nBanks == 1) {
io.out.meta.bits.payload := meta_q.bits.payload
io.out.meta.bits.header.src := UInt(clientId)
io.out.meta.bits.header.dst := UInt(0)
io.out.meta.valid := meta_q.valid
meta_q.ready := io.out.meta.ready
io.out.data.bits.payload := data_q.bits.payload
io.out.data.bits.header.src := UInt(clientId)
io.out.data.bits.header.dst := UInt(0)
io.out.data.valid := data_q.valid
data_q.ready := io.out.data.ready
} else {
val meta_has_data = conf.co.messageHasData(meta_q.bits.payload)
val addr_q = Module(new Queue(io.in.meta.bits.payload.addr.clone, 2, pipe = true, flow = true))
val data_cnt = Reg(init=UInt(0, width = log2Up(REFILL_CYCLES)))
val data_cnt_up = data_cnt + UInt(1)
io.out.meta.bits.payload := meta_q.bits.payload
io.out.meta.bits.header.src := UInt(clientId)
io.out.meta.bits.header.dst := addrConvert(meta_q.bits.payload.addr)
io.out.data.bits.payload := meta_q.bits.payload
io.out.data.bits.header.src := UInt(clientId)
io.out.data.bits.header.dst := addrConvert(addr_q.io.deq.bits)
addr_q.io.enq.bits := meta_q.bits.payload.addr
io.out.meta.valid := meta_q.valid && addr_q.io.enq.ready
meta_q.ready := io.out.meta.ready && addr_q.io.enq.ready
io.out.data.valid := data_q.valid && addr_q.io.deq.valid
data_q.ready := io.out.data.ready && addr_q.io.deq.valid
addr_q.io.enq.valid := meta_q.valid && io.out.meta.ready && meta_has_data
addr_q.io.deq.ready := Bool(false)
when(data_q.valid && data_q.ready) {
data_cnt := data_cnt_up
when(data_cnt_up === UInt(0)) {
addr_q.io.deq.ready := Bool(true)
}
}
}
}
//Adapter betweewn an UncachedTileLinkIO and a mem controller MemIO
class MemIOUncachedTileLinkIOConverter(qDepth: Int)(implicit conf: TileLinkConfiguration) extends Module {
val io = new Bundle {
val uncached = new UncachedTileLinkIO().flip
val mem = new ioMem
}
val mem_cmd_q = Module(new Queue(new MemReqCmd, qDepth))
val mem_data_q = Module(new Queue(new MemData, qDepth))
mem_cmd_q.io.enq.valid := io.uncached.acquire.meta.valid
io.uncached.acquire.meta.ready := mem_cmd_q.io.enq.ready
mem_cmd_q.io.enq.bits.rw := conf.co.needsOuterWrite(io.uncached.acquire.meta.bits.payload.a_type, UInt(0))
mem_cmd_q.io.enq.bits.tag := io.uncached.acquire.meta.bits.payload.client_xact_id
mem_cmd_q.io.enq.bits.addr := io.uncached.acquire.meta.bits.payload.addr
mem_data_q.io.enq.valid := io.uncached.acquire.data.valid
io.uncached.acquire.data.ready := mem_data_q.io.enq.ready
mem_data_q.io.enq.bits.data := io.uncached.acquire.data.bits.payload.data
io.uncached.grant.valid := io.mem.resp.valid
io.mem.resp.ready := io.uncached.grant.ready
io.uncached.grant.bits.payload.data := io.mem.resp.bits.data
io.uncached.grant.bits.payload.client_xact_id := io.mem.resp.bits.tag
io.uncached.grant.bits.payload.master_xact_id := UInt(0) // DNC
io.uncached.grant.bits.payload.g_type := UInt(0) // DNC
io.mem.req_cmd <> mem_cmd_q.io.deq
io.mem.req_data <> mem_data_q.io.deq
}
class ReferenceChipCrossbarNetwork(implicit conf: UncoreConfiguration) extends LogicalNetwork[TileLinkIO]()(conf.tl.ln) {
implicit val (tl, ln, co) = (conf.tl, conf.tl.ln, conf.tl.co)
val io = new Bundle { val io = new Bundle {
val clients = Vec.fill(ln.nClients){(new TileLinkIO).flip} val clients = Vec.fill(ln.nClients){(new TileLinkIO).flip}
val masters = Vec.fill(ln.nMasters){new TileLinkIO} val masters = Vec.fill(ln.nMasters){new TileLinkIO}
} }
implicit val pconf = new PhysicalNetworkConfiguration(ln.nEndpoints, ln.idBits) // Same config for all networks implicit val pconf = new PhysicalNetworkConfiguration(ln.nEndpoints, ln.idBits) // Same config for all networks
// Actually instantiate the particular networks required for TileLink // Actually instantiate the particular networks required for TileLink
val acqNet = Module(new PairedCrossbar(new Acquire, new AcquireData, REFILL_CYCLES, (acq: PhysicalNetworkIO[Acquire]) => co.messageHasData(acq.payload))) val acqNet = Module(new BasicCrossbar(new Acquire))
val relNet = Module(new PairedCrossbar(new Release, new ReleaseData, REFILL_CYCLES, (rel: PhysicalNetworkIO[Release]) => co.messageHasData(rel.payload))) val relNet = Module(new BasicCrossbar(new Release))
val probeNet = Module(new BasicCrossbar(new Probe)) val prbNet = Module(new BasicCrossbar(new Probe))
val grantNet = Module(new BasicCrossbar(new Grant)) val gntNet = Module(new BasicCrossbar(new Grant))
val ackNet = Module(new BasicCrossbar(new GrantAck)) val ackNet = Module(new BasicCrossbar(new Finish))
// Aliases for the various network IO bundle types // Aliases for the various network IO bundle types
type FBCIO[T <: Data] = DecoupledIO[PhysicalNetworkIO[T]] type FBCIO[T <: Data] = DecoupledIO[PhysicalNetworkIO[T]]
type FLNIO[T <: Data] = DecoupledIO[LogicalNetworkIO[T]] type FLNIO[T <: Data] = DecoupledIO[LogicalNetworkIO[T]]
type PBCIO[M <: Data, D <: Data] = PairedDataIO[PhysicalNetworkIO[M], PhysicalNetworkIO[D]]
type PLNIO[M <: Data, D <: Data] = PairedDataIO[LogicalNetworkIO[M], LogicalNetworkIO[D]]
type FromCrossbar[T <: Data] = FBCIO[T] => FLNIO[T] type FromCrossbar[T <: Data] = FBCIO[T] => FLNIO[T]
type ToCrossbar[T <: Data] = FLNIO[T] => FBCIO[T] type ToCrossbar[T <: Data] = FLNIO[T] => FBCIO[T]
@ -176,10 +104,10 @@ class ReferenceChipCrossbarNetwork(implicit conf: UncoreConfiguration) extends L
def doFIFOHookup[T <: Data](isEndpointSourceOfMessage: Boolean, physIn: FBCIO[T], physOut: FBCIO[T], logIO: FLNIO[T], inShim: ToCrossbar[T], outShim: FromCrossbar[T]) = { def doFIFOHookup[T <: Data](isEndpointSourceOfMessage: Boolean, physIn: FBCIO[T], physOut: FBCIO[T], logIO: FLNIO[T], inShim: ToCrossbar[T], outShim: FromCrossbar[T]) = {
if(isEndpointSourceOfMessage) doFIFOInputHookup(physIn, physOut, logIO, inShim) if(isEndpointSourceOfMessage) doFIFOInputHookup(physIn, physOut, logIO, inShim)
else doFIFOOutputHookup(physIn, physOut, logIO, outShim) else doFIFOOutputHookup(physIn, physOut, logIO, outShim)
} }
//Hookup all instances of a particular subbundle of //Hookup all instances of a particular subbundle of TileLink
def doFIFOHookups[T <: Data: TypeTag](physIO: BasicCrossbarIO[T], getLogIO: TileLinkIO => FLNIO[T]) = { def doFIFOHookups[T <: Data: TypeTag](physIO: BasicCrossbarIO[T], getLogIO: TileLinkIO => FLNIO[T]) = {
typeTag[T].tpe match{ typeTag[T].tpe match{
case t if t <:< typeTag[ClientSourcedMessage].tpe => { case t if t <:< typeTag[ClientSourcedMessage].tpe => {
@ -194,33 +122,9 @@ class ReferenceChipCrossbarNetwork(implicit conf: UncoreConfiguration) extends L
} }
} }
def doPairedDataHookup[T <: Data, R <: Data](isEndpointSourceOfMessage: Boolean, physIn: PBCIO[T,R], physOut: PBCIO[T,R], logIO: PLNIO[T,R], inShim: ToCrossbar[T], outShim: FromCrossbar[T], inShimD: ToCrossbar[R], outShimD: FromCrossbar[R]) = { doFIFOHookups(acqNet.io, (tl: TileLinkIO) => tl.acquire)
if(isEndpointSourceOfMessage) { doFIFOHookups(relNet.io, (tl: TileLinkIO) => tl.release)
doFIFOInputHookup[T](physIn.meta, physOut.meta, logIO.meta, inShim) doFIFOHookups(prbNet.io, (tl: TileLinkIO) => tl.probe)
doFIFOInputHookup[R](physIn.data, physOut.data, logIO.data, inShimD) doFIFOHookups(gntNet.io, (tl: TileLinkIO) => tl.grant)
} else { doFIFOHookups(ackNet.io, (tl: TileLinkIO) => tl.finish)
doFIFOOutputHookup[T](physIn.meta, physOut.meta, logIO.meta, outShim)
doFIFOOutputHookup[R](physIn.data, physOut.data, logIO.data, outShimD)
}
}
def doPairedDataHookups[T <: Data: TypeTag, R <: Data](physIO: PairedCrossbarIO[T,R], getLogIO: TileLinkIO => PLNIO[T,R]) = {
typeTag[T].tpe match{
case t if t <:< typeTag[ClientSourcedMessage].tpe => {
io.masters.zipWithIndex.map{ case (i, id) => doPairedDataHookup[T,R](false, physIO.in(id), physIO.out(id), getLogIO(i), ClientToCrossbarShim, CrossbarToMasterShim, ClientToCrossbarShim, CrossbarToMasterShim) }
io.clients.zipWithIndex.map{ case (i, id) => doPairedDataHookup[T,R](true, physIO.in(id+ln.nMasters), physIO.out(id+ln.nMasters), getLogIO(i), ClientToCrossbarShim, CrossbarToMasterShim, ClientToCrossbarShim, CrossbarToMasterShim) }
}
case t if t <:< typeTag[MasterSourcedMessage].tpe => {
io.masters.zipWithIndex.map{ case (i, id) => doPairedDataHookup[T,R](true, physIO.in(id), physIO.out(id), getLogIO(i), MasterToCrossbarShim, CrossbarToClientShim, MasterToCrossbarShim, CrossbarToClientShim) }
io.clients.zipWithIndex.map{ case (i, id) => doPairedDataHookup[T,R](false, physIO.in(id+ln.nMasters), physIO.out(id+ln.nMasters), getLogIO(i), MasterToCrossbarShim, CrossbarToClientShim, MasterToCrossbarShim, CrossbarToClientShim) }
}
case _ => require(false, "Unknown message sourcing.")
}
}
doPairedDataHookups(acqNet.io, (tl: TileLinkIO) => tl.acquire)
doPairedDataHookups(relNet.io, (tl: TileLinkIO) => tl.release)
doFIFOHookups(probeNet.io, (tl: TileLinkIO) => tl.probe)
doFIFOHookups(grantNet.io, (tl: TileLinkIO) => tl.grant)
doFIFOHookups(ackNet.io, (tl: TileLinkIO) => tl.grant_ack)
} }

2
uncore

@ -1 +1 @@
Subproject commit 803308e917397776444c3e3696fbfacad709a1db Subproject commit ebe0f493a62641a71caec9f2959a4f57e2c16b4e