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config: make internal links in network topology unidirectional.

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This patch makes the internal links within the network topology
unidirectional, thus allowing any deadlock-free routing algorithms to
be specified from the topology itself using weights.
This patch also renames Mesh.py and MeshDirCorners.py to
Mesh_XY.py and MeshDirCorners_XY.py (Mesh with XY routing).
It also adds a Mesh_westfirst.py and CrossbarGarnet.py topologies.
This commit is contained in:
Tushar Krishna 2016-10-06 14:35:18 -04:00
parent b9e23a6d74
commit 003c08fa90
20 changed files with 295 additions and 173 deletions
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23
configs/topologies/Cluster.py
View file

@ -86,23 +86,30 @@ class Cluster(BaseTopology):
node.makeTopology(options, network, IntLink, ExtLink, Router) node.makeTopology(options, network, IntLink, ExtLink, Router)
# connect this cluster to the router # connect this cluster to the router
link = IntLink(link_id=self.num_int_links(), node_a=self.router, link_out = IntLink(link_id=self.num_int_links(), src_node=self.router,
node_b=node.router) dst_node_=node.router)
link_in = IntLink(link_id=self.num_int_links(), src_node=node.router,
dst_node_=self.router)
if node.extBW: if node.extBW:
link.bandwidth_factor = node.extBW link_out.bandwidth_factor = node.extBW
link_in.bandwidth_factor = node.extBW
# if there is an interanl b/w for this node # if there is an internal b/w for this node
# and no ext b/w to override # and no ext b/w to override
elif self.intBW: elif self.intBW:
link.bandwidth_factor = self.intBW link_out.bandwidth_factor = self.intBW
link_in.bandwidth_factor = self.intBW
if node.extLatency: if node.extLatency:
link.latency = node.extLatency link_out.latency = node.extLatency
link_in.latency = node.extLatency
elif self.intLatency: elif self.intLatency:
link.latency = self.intLatency link_out.latency = self.intLatency
link_in.latency = self.intLatency
network.int_links.append(link) network.int_links.append(link_out)
network.int_links.append(link_in)
else: else:
# node is just a controller, # node is just a controller,
# connect it to the router via a ext_link # connect it to the router via a ext_link

18
configs/topologies/Crossbar.py
View file

@ -39,6 +39,7 @@ class Crossbar(SimpleTopology):
# the centralized crossbar. The large numbers of routers are needed # the centralized crossbar. The large numbers of routers are needed
# because external links do not model outgoing bandwidth in the # because external links do not model outgoing bandwidth in the
# simple network, but internal links do. # simple network, but internal links do.
# For garnet, one router suffices, use CrossbarGarnet.py
routers = [Router(router_id=i) for i in range(len(self.nodes)+1)] routers = [Router(router_id=i) for i in range(len(self.nodes)+1)]
xbar = routers[len(self.nodes)] # the crossbar router is the last router created xbar = routers[len(self.nodes)] # the crossbar router is the last router created
@ -49,7 +50,18 @@ class Crossbar(SimpleTopology):
network.ext_links = ext_links network.ext_links = ext_links
link_count = len(self.nodes) link_count = len(self.nodes)
int_links = [IntLink(link_id=(link_count+i),
node_a=routers[i], node_b=xbar) int_links = []
for i in range(len(self.nodes))] for i in range(len(self.nodes)):
int_links.append(IntLink(link_id=(link_count+i),
src_node=routers[i],
dst_node=xbar))
link_count += len(self.nodes)
for i in range(len(self.nodes)):
int_links.append(IntLink(link_id=(link_count+i),
src_node=xbar,
dst_node=routers[i]))
network.int_links = int_links network.int_links = int_links

50
configs/topologies/CrossbarGarnet.py Normal file
View file

@ -0,0 +1,50 @@
# Copyright (c) 2016 Georgia Institute of Technology
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met: redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer;
# redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution;
# neither the name of the copyright holders nor the names of its
# contributors may be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
# Authors: Tushar Krishna
from m5.params import *
from m5.objects import *
from BaseTopology import SimpleTopology
class CrossbarGarnet(SimpleTopology):
description='CrossbarGarnet'
def makeTopology(self, options, network, IntLink, ExtLink, Router):
# Create one router in Garnet. Internally models a crossbar and
# the associated allocator.
# For simple network, use Crossbar.py
xbar = Router(router_id=0)
network.routers = xbar
ext_links = [ExtLink(link_id=i, ext_node=n, int_node=xbar)
for (i, n) in enumerate(self.nodes)]
network.ext_links = ext_links
int_links = []
network.int_links = int_links

60
configs/topologies/MeshDirCorners.py → configs/topologies/MeshDirCorners_XY.py
View file

@ -31,17 +31,16 @@ from m5.objects import *
from BaseTopology import SimpleTopology from BaseTopology import SimpleTopology
class MeshDirCorners(SimpleTopology): # Creates a Mesh topology with 4 directories, one at each corner.
description='MeshDirCorners' # One L1 (and L2, depending on the protocol) are connected to each router.
# XY routing is enforced (using link weights) to guarantee deadlock freedom.
class MeshDirCorners_XY(SimpleTopology):
description='MeshDirCorners_XY'
def __init__(self, controllers): def __init__(self, controllers):
self.nodes = controllers self.nodes = controllers
# This file contains a special network creation function. This
# networks is not general and will only work with specific system
# configurations. The network specified is similar to GEMS old file
# specified network.
def makeTopology(self, options, network, IntLink, ExtLink, Router): def makeTopology(self, options, network, IntLink, ExtLink, Router):
nodes = self.nodes nodes = self.nodes
@ -110,29 +109,56 @@ class MeshDirCorners(SimpleTopology):
network.ext_links = ext_links network.ext_links = ext_links
# Create the mesh links. First row (east-west) links then column # Create the mesh links.
# (north-south) links
int_links = [] int_links = []
# East output to West input links (weight = 1)
for row in xrange(num_rows): for row in xrange(num_rows):
for col in xrange(num_columns): for col in xrange(num_columns):
if (col + 1 < num_columns): if (col + 1 < num_columns):
east_id = col + (row * num_columns) east_out = col + (row * num_columns)
west_id = (col + 1) + (row * num_columns) west_in = (col + 1) + (row * num_columns)
int_links.append(IntLink(link_id=link_count, int_links.append(IntLink(link_id=link_count,
node_a=routers[east_id], src_node=routers[east_out],
node_b=routers[west_id], dst_node=routers[west_in],
weight=1)) weight=1))
link_count += 1 link_count += 1
# West output to East input links (weight = 1)
for row in xrange(num_rows):
for col in xrange(num_columns):
if (col + 1 < num_columns):
east_in = col + (row * num_columns)
west_out = (col + 1) + (row * num_columns)
int_links.append(IntLink(link_id=link_count,
src_node=routers[west_out],
dst_node=routers[east_in],
weight=1))
link_count += 1
# North output to South input links (weight = 2)
for col in xrange(num_columns): for col in xrange(num_columns):
for row in xrange(num_rows): for row in xrange(num_rows):
if (row + 1 < num_rows): if (row + 1 < num_rows):
north_id = col + (row * num_columns) north_out = col + (row * num_columns)
south_id = col + ((row + 1) * num_columns) south_in = col + ((row + 1) * num_columns)
int_links.append(IntLink(link_id=link_count, int_links.append(IntLink(link_id=link_count,
node_a=routers[north_id], src_node=routers[north_out],
node_b=routers[south_id], dst_node=routers[south_in],
weight=2)) weight=2))
link_count += 1 link_count += 1
# South output to North input links (weight = 2)
for col in xrange(num_columns):
for row in xrange(num_rows):
if (row + 1 < num_rows):
north_in = col + (row * num_columns)
south_out = col + ((row + 1) * num_columns)
int_links.append(IntLink(link_id=link_count,
src_node=routers[south_out],
dst_node=routers[north_in],
weight=2))
link_count += 1
network.int_links = int_links network.int_links = int_links

61
configs/topologies/Mesh.py → configs/topologies/Mesh_XY.py
View file

@ -1,4 +1,5 @@
# Copyright (c) 2010 Advanced Micro Devices, Inc. # Copyright (c) 2010 Advanced Micro Devices, Inc.
# 2016 Georgia Institute of Technology
# All rights reserved. # All rights reserved.
# #
# Redistribution and use in source and binary forms, with or without # Redistribution and use in source and binary forms, with or without
@ -25,19 +26,26 @@
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. # OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
# #
# Authors: Brad Beckmann # Authors: Brad Beckmann
# Tushar Krishna
from m5.params import * from m5.params import *
from m5.objects import * from m5.objects import *
from BaseTopology import SimpleTopology from BaseTopology import SimpleTopology
class Mesh(SimpleTopology): # Creates a generic Mesh assuming an equal number of cache
description='Mesh' # and directory controllers.
# XY routing is enforced (using link weights)
# to guarantee deadlock freedom.
class Mesh_XY(SimpleTopology):
description='Mesh_XY'
def __init__(self, controllers): def __init__(self, controllers):
self.nodes = controllers self.nodes = controllers
# Makes a generic mesh assuming an equal number of cache and directory cntrls # Makes a generic mesh
# assuming an equal number of cache and directory cntrls
def makeTopology(self, options, network, IntLink, ExtLink, Router): def makeTopology(self, options, network, IntLink, ExtLink, Router):
nodes = self.nodes nodes = self.nodes
@ -89,29 +97,56 @@ class Mesh(SimpleTopology):
network.ext_links = ext_links network.ext_links = ext_links
# Create the mesh links. First row (east-west) links then column # Create the mesh links.
# (north-south) links
int_links = [] int_links = []
# East output to West input links (weight = 1)
for row in xrange(num_rows): for row in xrange(num_rows):
for col in xrange(num_columns): for col in xrange(num_columns):
if (col + 1 < num_columns): if (col + 1 < num_columns):
east_id = col + (row * num_columns) east_out = col + (row * num_columns)
west_id = (col + 1) + (row * num_columns) west_in = (col + 1) + (row * num_columns)
int_links.append(IntLink(link_id=link_count, int_links.append(IntLink(link_id=link_count,
node_a=routers[east_id], src_node=routers[east_out],
node_b=routers[west_id], dst_node=routers[west_in],
weight=1)) weight=1))
link_count += 1 link_count += 1
# West output to East input links (weight = 1)
for row in xrange(num_rows):
for col in xrange(num_columns):
if (col + 1 < num_columns):
east_in = col + (row * num_columns)
west_out = (col + 1) + (row * num_columns)
int_links.append(IntLink(link_id=link_count,
src_node=routers[west_out],
dst_node=routers[east_in],
weight=1))
link_count += 1
# North output to South input links (weight = 2)
for col in xrange(num_columns): for col in xrange(num_columns):
for row in xrange(num_rows): for row in xrange(num_rows):
if (row + 1 < num_rows): if (row + 1 < num_rows):
north_id = col + (row * num_columns) north_out = col + (row * num_columns)
south_id = col + ((row + 1) * num_columns) south_in = col + ((row + 1) * num_columns)
int_links.append(IntLink(link_id=link_count, int_links.append(IntLink(link_id=link_count,
node_a=routers[north_id], src_node=routers[north_out],
node_b=routers[south_id], dst_node=routers[south_in],
weight=2)) weight=2))
link_count += 1 link_count += 1
# South output to North input links (weight = 2)
for col in xrange(num_columns):
for row in xrange(num_rows):
if (row + 1 < num_rows):
north_in = col + (row * num_columns)
south_out = col + ((row + 1) * num_columns)
int_links.append(IntLink(link_id=link_count,
src_node=routers[south_out],
dst_node=routers[north_in],
weight=2))
link_count += 1
network.int_links = int_links network.int_links = int_links

97
configs/topologies/Torus.py → configs/topologies/Mesh_westfirst.py
View file

@ -1,5 +1,5 @@
# Copyright (c) 2011 Advanced Micro Devices, Inc. # Copyright (c) 2010 Advanced Micro Devices, Inc.
# 2011 Massachusetts Institute of Technology # 2016 Georgia Institute of Technology
# All rights reserved. # All rights reserved.
# #
# Redistribution and use in source and binary forms, with or without # Redistribution and use in source and binary forms, with or without
@ -33,16 +33,24 @@ from m5.objects import *
from BaseTopology import SimpleTopology from BaseTopology import SimpleTopology
class Torus(SimpleTopology): # Creates a generic Mesh assuming an equal number of cache
description='Torus' # and directory controllers.
# West-first routing is enforced (using link weights)
# to guarantee deadlock freedom.
# The network randomly chooses between links with the same
# weight for messages within unordered virtual networks.
# Within ordered virtual networks, a fixed link direction
# is always chosen based on which appears first inside the
# routing table.
class Mesh_westfirst(SimpleTopology):
description='Mesh_westfirst'
def __init__(self, controllers): def __init__(self, controllers):
self.nodes = controllers self.nodes = controllers
# Makes a generic torus assuming an equal number of cache and directory cntrls # Makes a generic mesh
# Assuming a folded-torus on-chip layout (as shown on gem5 wiki). # assuming an equal number of cache and directory cntrls
# All links (including the wrap-around ones) are of equal length, double that
# of a mesh. Thus, each link is assigned a latency of 2 cycles.
def makeTopology(self, options, network, IntLink, ExtLink, Router): def makeTopology(self, options, network, IntLink, ExtLink, Router):
nodes = self.nodes nodes = self.nodes
@ -57,7 +65,7 @@ class Torus(SimpleTopology):
num_columns = int(num_routers / num_rows) num_columns = int(num_routers / num_rows)
assert(num_columns * num_rows == num_routers) assert(num_columns * num_rows == num_routers)
# Create the routers in the torus # Create the routers in the mesh
routers = [Router(router_id=i) for i in range(num_routers)] routers = [Router(router_id=i) for i in range(num_routers)]
network.routers = routers network.routers = routers
@ -94,36 +102,57 @@ class Torus(SimpleTopology):
network.ext_links = ext_links network.ext_links = ext_links
# Create the torus links. First row (east-west) links then column # Create the mesh links.
# (north-south) links
# column links are given higher weights to implement XY routing
int_links = [] int_links = []
for row in xrange(num_rows):
for col in xrange(num_columns):
west_id = col + (row * num_columns)
if (col + 1 < num_columns):
east_id = (col + 1) + (row * num_columns)
else:
east_id = (row * num_columns)
int_links.append(IntLink(link_id=link_count,
node_a=routers[east_id],
node_b=routers[west_id],
latency=2,
weight=1))
link_count += 1
for col in xrange(num_columns): # East output to West input links (weight = 2)
for row in xrange(num_rows): for row in xrange(num_rows):
north_id = col + (row * num_columns) for col in xrange(num_columns):
if (row + 1 < num_rows): if (col + 1 < num_columns):
south_id = col + ((row + 1) * num_columns) east_out = col + (row * num_columns)
else: west_in = (col + 1) + (row * num_columns)
south_id = col
int_links.append(IntLink(link_id=link_count, int_links.append(IntLink(link_id=link_count,
node_a=routers[north_id], src_node=routers[east_out],
node_b=routers[south_id], dst_node=routers[west_in],
latency=2,
weight=2)) weight=2))
link_count += 1 link_count += 1
# West output to East input links (weight = 1)
for row in xrange(num_rows):
for col in xrange(num_columns):
if (col + 1 < num_columns):
east_in = col + (row * num_columns)
west_out = (col + 1) + (row * num_columns)
int_links.append(IntLink(link_id=link_count,
src_node=routers[west_out],
dst_node=routers[east_in],
weight=1))
link_count += 1
# North output to South input links (weight = 2)
for col in xrange(num_columns):
for row in xrange(num_rows):
if (row + 1 < num_rows):
north_out = col + (row * num_columns)
south_in = col + ((row + 1) * num_columns)
int_links.append(IntLink(link_id=link_count,
src_node=routers[north_out],
dst_node=routers[south_in],
weight=2))
link_count += 1
# South output to North input links (weight = 2)
for col in xrange(num_columns):
for row in xrange(num_rows):
if (row + 1 < num_rows):
north_in = col + (row * num_columns)
south_out = col + ((row + 1) * num_columns)
int_links.append(IntLink(link_id=link_count,
src_node=routers[south_out],
dst_node=routers[north_in],
weight=2))
link_count += 1
network.int_links = int_links network.int_links = int_links

4
configs/topologies/Pt2Pt.py
View file

@ -57,7 +57,7 @@ class Pt2Pt(SimpleTopology):
if (i != j): if (i != j):
link_count += 1 link_count += 1
int_links.append(IntLink(link_id=link_count, int_links.append(IntLink(link_id=link_count,
node_a=routers[i], src_node=routers[i],
node_b=routers[j])) dst_node=routers[j]))
network.int_links = int_links network.int_links = int_links

4
src/mem/ruby/network/BasicLink.cc
View file

@ -56,8 +56,6 @@ BasicLinkParams::create()
BasicExtLink::BasicExtLink(const Params *p) BasicExtLink::BasicExtLink(const Params *p)
: BasicLink(p) : BasicLink(p)
{ {
m_int_node = p->int_node;
m_ext_node = p->ext_node;
} }
BasicExtLink * BasicExtLink *
@ -69,8 +67,6 @@ BasicExtLinkParams::create()
BasicIntLink::BasicIntLink(const Params *p) BasicIntLink::BasicIntLink(const Params *p)
: BasicLink(p) : BasicLink(p)
{ {
m_node_a = p->node_a;
m_node_b = p->node_b;
} }
BasicIntLink * BasicIntLink *

8
src/mem/ruby/network/BasicLink.hh
View file

@ -73,10 +73,6 @@ class BasicExtLink : public BasicLink
const Params *params() const { return (const Params *)_params; } const Params *params() const { return (const Params *)_params; }
friend class Topology; friend class Topology;
protected:
BasicRouter* m_int_node;
AbstractController* m_ext_node;
}; };
class BasicIntLink : public BasicLink class BasicIntLink : public BasicLink
@ -87,10 +83,6 @@ class BasicIntLink : public BasicLink
const Params *params() const { return (const Params *)_params; } const Params *params() const { return (const Params *)_params; }
friend class Topology; friend class Topology;
protected:
BasicRouter* m_node_a;
BasicRouter* m_node_b;
}; };
#endif // __MEM_RUBY_NETWORK_BASIC_LINK_HH__ #endif // __MEM_RUBY_NETWORK_BASIC_LINK_HH__

11
src/mem/ruby/network/BasicLink.py
View file

@ -35,10 +35,9 @@ class BasicLink(SimObject):
cxx_header = "mem/ruby/network/BasicLink.hh" cxx_header = "mem/ruby/network/BasicLink.hh"
link_id = Param.Int("ID in relation to other links") link_id = Param.Int("ID in relation to other links")
latency = Param.Cycles(1, "latency") latency = Param.Cycles(1, "latency")
# The following banwidth factor does not translate to the same value for # Width of the link in bytes
# both the simple and Garnet models. For the most part, the bandwidth # Only used by simple network.
# factor is the width of the link in bytes, expect for certain situations # Garnet models this by flit size
# with regard to the simple network.
bandwidth_factor = Param.Int("generic bandwidth factor, usually in bytes") bandwidth_factor = Param.Int("generic bandwidth factor, usually in bytes")
weight = Param.Int(1, "used to restrict routing in shortest path analysis") weight = Param.Int(1, "used to restrict routing in shortest path analysis")
@ -52,6 +51,6 @@ class BasicExtLink(BasicLink):
class BasicIntLink(BasicLink): class BasicIntLink(BasicLink):
type = 'BasicIntLink' type = 'BasicIntLink'
cxx_header = "mem/ruby/network/BasicLink.hh" cxx_header = "mem/ruby/network/BasicLink.hh"
node_a = Param.BasicRouter("Router on one end") src_node = Param.BasicRouter("Router on src end")
node_b = Param.BasicRouter("Router on other end") dst_node = Param.BasicRouter("Router on dst end")
bandwidth_factor = 16 bandwidth_factor = 16

7
src/mem/ruby/network/Network.hh
View file

@ -80,14 +80,11 @@ class Network : public ClockedObject
virtual void checkNetworkAllocation(NodeID id, bool ordered, virtual void checkNetworkAllocation(NodeID id, bool ordered,
int network_num, std::string vnet_type); int network_num, std::string vnet_type);
virtual void makeOutLink(SwitchID src, NodeID dest, BasicLink* link, virtual void makeExtOutLink(SwitchID src, NodeID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry) = 0; const NetDest& routing_table_entry) = 0;
virtual void makeInLink(NodeID src, SwitchID dest, BasicLink* link, virtual void makeExtInLink(NodeID src, SwitchID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry) = 0; const NetDest& routing_table_entry) = 0;
virtual void makeInternalLink(SwitchID src, SwitchID dest, BasicLink* link, virtual void makeInternalLink(SwitchID src, SwitchID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry) = 0; const NetDest& routing_table_entry) = 0;
virtual void collateStats() = 0; virtual void collateStats() = 0;

50
src/mem/ruby/network/Topology.cc
View file

@ -55,10 +55,14 @@ Topology::Topology(uint32_t num_routers,
// Total nodes/controllers in network // Total nodes/controllers in network
assert(m_nodes > 1); assert(m_nodes > 1);
// analyze both the internal and external links, create data structures // analyze both the internal and external links, create data structures.
// Note that the python created links are bi-directional, but that the // The python created external links are bi-directional,
// topology and networks utilize uni-directional links. Thus each // and the python created internal links are uni-directional.
// BasicLink is converted to two calls to add link, on for each direction // The networks and topology utilize uni-directional links.
// Thus each external link is converted to two calls to addLink,
// one for each direction.
//
// External Links
for (vector<BasicExtLink*>::const_iterator i = ext_links.begin(); for (vector<BasicExtLink*>::const_iterator i = ext_links.begin();
i != ext_links.end(); ++i) { i != ext_links.end(); ++i) {
BasicExtLink *ext_link = (*i); BasicExtLink *ext_link = (*i);
@ -71,29 +75,27 @@ Topology::Topology(uint32_t num_routers,
int int_idx = router->params()->router_id + 2*m_nodes; int int_idx = router->params()->router_id + 2*m_nodes;
// create the internal uni-directional links in both directions // create the internal uni-directional links in both directions
// the first direction is marked: In // ext to int
addLink(ext_idx1, int_idx, ext_link, LinkDirection_In); addLink(ext_idx1, int_idx, ext_link);
// the first direction is marked: Out // int to ext
addLink(int_idx, ext_idx2, ext_link, LinkDirection_Out); addLink(int_idx, ext_idx2, ext_link);
} }
// Internal Links
for (vector<BasicIntLink*>::const_iterator i = int_links.begin(); for (vector<BasicIntLink*>::const_iterator i = int_links.begin();
i != int_links.end(); ++i) { i != int_links.end(); ++i) {
BasicIntLink *int_link = (*i); BasicIntLink *int_link = (*i);
BasicRouter *router_a = int_link->params()->node_a; BasicRouter *router_src = int_link->params()->src_node;
BasicRouter *router_b = int_link->params()->node_b; BasicRouter *router_dst = int_link->params()->dst_node;
// Store the IntLink pointers for later // Store the IntLink pointers for later
m_int_link_vector.push_back(int_link); m_int_link_vector.push_back(int_link);
int a = router_a->params()->router_id + 2*m_nodes; int src = router_src->params()->router_id + 2*m_nodes;
int b = router_b->params()->router_id + 2*m_nodes; int dst = router_dst->params()->router_id + 2*m_nodes;
// create the internal uni-directional links in both directions // create the internal uni-directional link from src to dst
// the first direction is marked: In addLink(src, dst, int_link);
addLink(a, b, int_link, LinkDirection_In);
// the second direction is marked: Out
addLink(b, a, int_link, LinkDirection_Out);
} }
} }
@ -151,8 +153,7 @@ Topology::createLinks(Network *net)
} }
void void
Topology::addLink(SwitchID src, SwitchID dest, BasicLink* link, Topology::addLink(SwitchID src, SwitchID dest, BasicLink* link)
LinkDirection dir)
{ {
assert(src <= m_number_of_switches+m_nodes+m_nodes); assert(src <= m_number_of_switches+m_nodes+m_nodes);
assert(dest <= m_number_of_switches+m_nodes+m_nodes); assert(dest <= m_number_of_switches+m_nodes+m_nodes);
@ -162,7 +163,6 @@ Topology::addLink(SwitchID src, SwitchID dest, BasicLink* link,
src_dest_pair.first = src; src_dest_pair.first = src;
src_dest_pair.second = dest; src_dest_pair.second = dest;
link_entry.direction = dir;
link_entry.link = link; link_entry.link = link;
m_link_map[src_dest_pair] = link_entry; m_link_map[src_dest_pair] = link_entry;
} }
@ -182,23 +182,23 @@ Topology::makeLink(Network *net, SwitchID src, SwitchID dest,
src_dest.first = src; src_dest.first = src;
src_dest.second = dest; src_dest.second = dest;
link_entry = m_link_map[src_dest]; link_entry = m_link_map[src_dest];
net->makeInLink(src, dest - (2 * m_nodes), link_entry.link, net->makeExtInLink(src, dest - (2 * m_nodes), link_entry.link,
link_entry.direction, routing_table_entry); routing_table_entry);
} else if (dest < 2*m_nodes) { } else if (dest < 2*m_nodes) {
assert(dest >= m_nodes); assert(dest >= m_nodes);
NodeID node = dest - m_nodes; NodeID node = dest - m_nodes;
src_dest.first = src; src_dest.first = src;
src_dest.second = dest; src_dest.second = dest;
link_entry = m_link_map[src_dest]; link_entry = m_link_map[src_dest];
net->makeOutLink(src - (2 * m_nodes), node, link_entry.link, net->makeExtOutLink(src - (2 * m_nodes), node, link_entry.link,
link_entry.direction, routing_table_entry); routing_table_entry);
} else { } else {
assert((src >= 2 * m_nodes) && (dest >= 2 * m_nodes)); assert((src >= 2 * m_nodes) && (dest >= 2 * m_nodes));
src_dest.first = src; src_dest.first = src;
src_dest.second = dest; src_dest.second = dest;
link_entry = m_link_map[src_dest]; link_entry = m_link_map[src_dest];
net->makeInternalLink(src - (2 * m_nodes), dest - (2 * m_nodes), net->makeInternalLink(src - (2 * m_nodes), dest - (2 * m_nodes),
link_entry.link, link_entry.direction, link_entry.link,
routing_table_entry); routing_table_entry);
} }
} }

3
src/mem/ruby/network/Topology.hh
View file

@ -72,8 +72,7 @@ class Topology
void print(std::ostream& out) const { out << "[Topology]"; } void print(std::ostream& out) const { out << "[Topology]"; }
private: private:
void addLink(SwitchID src, SwitchID dest, BasicLink* link, void addLink(SwitchID src, SwitchID dest, BasicLink* link);
LinkDirection dir);
void makeLink(Network *net, SwitchID src, SwitchID dest, void makeLink(Network *net, SwitchID src, SwitchID dest,
const NetDest& routing_table_entry); const NetDest& routing_table_entry);

19
src/mem/ruby/network/garnet/fixed-pipeline/GarnetNetwork_d.cc
View file

@ -127,15 +127,14 @@ GarnetNetwork_d::~GarnetNetwork_d()
*/ */
void void
GarnetNetwork_d::makeInLink(NodeID src, SwitchID dest, BasicLink* link, GarnetNetwork_d::makeExtInLink(NodeID src, SwitchID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry) const NetDest& routing_table_entry)
{ {
assert(src < m_nodes); assert(src < m_nodes);
GarnetExtLink_d* garnet_link = safe_cast<GarnetExtLink_d*>(link); GarnetExtLink_d* garnet_link = safe_cast<GarnetExtLink_d*>(link);
NetworkLink_d* net_link = garnet_link->m_network_links[direction]; NetworkLink_d* net_link = garnet_link->m_network_links[0];
CreditLink_d* credit_link = garnet_link->m_credit_links[direction]; CreditLink_d* credit_link = garnet_link->m_credit_links[0];
m_links.push_back(net_link); m_links.push_back(net_link);
m_creditlinks.push_back(credit_link); m_creditlinks.push_back(credit_link);
@ -151,8 +150,7 @@ GarnetNetwork_d::makeInLink(NodeID src, SwitchID dest, BasicLink* link,
*/ */
void void
GarnetNetwork_d::makeOutLink(SwitchID src, NodeID dest, BasicLink* link, GarnetNetwork_d::makeExtOutLink(SwitchID src, NodeID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry) const NetDest& routing_table_entry)
{ {
assert(dest < m_nodes); assert(dest < m_nodes);
@ -160,8 +158,8 @@ GarnetNetwork_d::makeOutLink(SwitchID src, NodeID dest, BasicLink* link,
assert(m_routers[src] != NULL); assert(m_routers[src] != NULL);
GarnetExtLink_d* garnet_link = safe_cast<GarnetExtLink_d*>(link); GarnetExtLink_d* garnet_link = safe_cast<GarnetExtLink_d*>(link);
NetworkLink_d* net_link = garnet_link->m_network_links[direction]; NetworkLink_d* net_link = garnet_link->m_network_links[1];
CreditLink_d* credit_link = garnet_link->m_credit_links[direction]; CreditLink_d* credit_link = garnet_link->m_credit_links[1];
m_links.push_back(net_link); m_links.push_back(net_link);
m_creditlinks.push_back(credit_link); m_creditlinks.push_back(credit_link);
@ -177,12 +175,11 @@ GarnetNetwork_d::makeOutLink(SwitchID src, NodeID dest, BasicLink* link,
void void
GarnetNetwork_d::makeInternalLink(SwitchID src, SwitchID dest, BasicLink* link, GarnetNetwork_d::makeInternalLink(SwitchID src, SwitchID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry) const NetDest& routing_table_entry)
{ {
GarnetIntLink_d* garnet_link = safe_cast<GarnetIntLink_d*>(link); GarnetIntLink_d* garnet_link = safe_cast<GarnetIntLink_d*>(link);
NetworkLink_d* net_link = garnet_link->m_network_links[direction]; NetworkLink_d* net_link = garnet_link->m_network_links[0];
CreditLink_d* credit_link = garnet_link->m_credit_links[direction]; CreditLink_d* credit_link = garnet_link->m_credit_links[0];
m_links.push_back(net_link); m_links.push_back(net_link);
m_creditlinks.push_back(credit_link); m_creditlinks.push_back(credit_link);

7
src/mem/ruby/network/garnet/fixed-pipeline/GarnetNetwork_d.hh
View file

@ -69,14 +69,11 @@ class GarnetNetwork_d : public BaseGarnetNetwork
} }
// Methods used by Topology to setup the network // Methods used by Topology to setup the network
void makeOutLink(SwitchID src, NodeID dest, BasicLink* link, void makeExtOutLink(SwitchID src, NodeID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry); const NetDest& routing_table_entry);
void makeInLink(NodeID src, SwitchID dest, BasicLink* link, void makeExtInLink(NodeID src, SwitchID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry); const NetDest& routing_table_entry);
void makeInternalLink(SwitchID src, SwitchID dest, BasicLink* link, void makeInternalLink(SwitchID src, SwitchID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry); const NetDest& routing_table_entry);
//! Function for performing a functional write. The return value //! Function for performing a functional write. The return value

13
src/mem/ruby/network/garnet/flexible-pipeline/GarnetNetwork.cc
View file

@ -94,14 +94,13 @@ GarnetNetwork::~GarnetNetwork()
} }
void void
GarnetNetwork::makeInLink(NodeID src, SwitchID dest, BasicLink* link, GarnetNetwork::makeExtInLink(NodeID src, SwitchID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry) const NetDest& routing_table_entry)
{ {
assert(src < m_nodes); assert(src < m_nodes);
GarnetExtLink* garnet_link = safe_cast<GarnetExtLink*>(link); GarnetExtLink* garnet_link = safe_cast<GarnetExtLink*>(link);
NetworkLink *net_link = garnet_link->m_network_links[direction]; NetworkLink *net_link = garnet_link->m_network_links[0];
net_link->init_net_ptr(this); net_link->init_net_ptr(this);
m_links.push_back(net_link); m_links.push_back(net_link);
@ -110,8 +109,7 @@ GarnetNetwork::makeInLink(NodeID src, SwitchID dest, BasicLink* link,
} }
void void
GarnetNetwork::makeOutLink(SwitchID src, NodeID dest, BasicLink* link, GarnetNetwork::makeExtOutLink(SwitchID src, NodeID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry) const NetDest& routing_table_entry)
{ {
assert(dest < m_nodes); assert(dest < m_nodes);
@ -119,7 +117,7 @@ GarnetNetwork::makeOutLink(SwitchID src, NodeID dest, BasicLink* link,
assert(m_routers[src] != NULL); assert(m_routers[src] != NULL);
GarnetExtLink* garnet_link = safe_cast<GarnetExtLink*>(link); GarnetExtLink* garnet_link = safe_cast<GarnetExtLink*>(link);
NetworkLink *net_link = garnet_link->m_network_links[direction]; NetworkLink *net_link = garnet_link->m_network_links[1];
net_link->init_net_ptr(this); net_link->init_net_ptr(this);
m_links.push_back(net_link); m_links.push_back(net_link);
@ -130,11 +128,10 @@ GarnetNetwork::makeOutLink(SwitchID src, NodeID dest, BasicLink* link,
void void
GarnetNetwork::makeInternalLink(SwitchID src, SwitchID dest, BasicLink* link, GarnetNetwork::makeInternalLink(SwitchID src, SwitchID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry) const NetDest& routing_table_entry)
{ {
GarnetIntLink* garnet_link = safe_cast<GarnetIntLink*>(link); GarnetIntLink* garnet_link = safe_cast<GarnetIntLink*>(link);
NetworkLink *net_link = garnet_link->m_network_links[direction]; NetworkLink *net_link = garnet_link->m_network_links[0];
net_link->init_net_ptr(this); net_link->init_net_ptr(this);
m_links.push_back(net_link); m_links.push_back(net_link);

7
src/mem/ruby/network/garnet/flexible-pipeline/GarnetNetwork.hh
View file

@ -60,14 +60,11 @@ class GarnetNetwork : public BaseGarnetNetwork
void print(std::ostream& out) const; void print(std::ostream& out) const;
// Methods used by Topology to setup the network // Methods used by Topology to setup the network
void makeOutLink(SwitchID src, NodeID dest, BasicLink* link, void makeExtOutLink(SwitchID src, NodeID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry); const NetDest& routing_table_entry);
void makeInLink(NodeID src, SwitchID dest, BasicLink* link, void makeExtInLink(NodeID src, SwitchID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry); const NetDest& routing_table_entry);
void makeInternalLink(SwitchID src, SwitchID dest, BasicLink* link, void makeInternalLink(SwitchID src, SwitchID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry); const NetDest& routing_table_entry);
//! Function for performing a functional read. The return value //! Function for performing a functional read. The return value

7
src/mem/ruby/network/simple/SimpleNetwork.cc
View file

@ -78,8 +78,7 @@ SimpleNetwork::~SimpleNetwork()
// From a switch to an endpoint node // From a switch to an endpoint node
void void
SimpleNetwork::makeOutLink(SwitchID src, NodeID dest, BasicLink* link, SimpleNetwork::makeExtOutLink(SwitchID src, NodeID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry) const NetDest& routing_table_entry)
{ {
assert(dest < m_nodes); assert(dest < m_nodes);
@ -95,8 +94,7 @@ SimpleNetwork::makeOutLink(SwitchID src, NodeID dest, BasicLink* link,
// From an endpoint node to a switch // From an endpoint node to a switch
void void
SimpleNetwork::makeInLink(NodeID src, SwitchID dest, BasicLink* link, SimpleNetwork::makeExtInLink(NodeID src, SwitchID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry) const NetDest& routing_table_entry)
{ {
assert(src < m_nodes); assert(src < m_nodes);
@ -106,7 +104,6 @@ SimpleNetwork::makeInLink(NodeID src, SwitchID dest, BasicLink* link,
// From a switch to a switch // From a switch to a switch
void void
SimpleNetwork::makeInternalLink(SwitchID src, SwitchID dest, BasicLink* link, SimpleNetwork::makeInternalLink(SwitchID src, SwitchID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry) const NetDest& routing_table_entry)
{ {
// Create a set of new MessageBuffers // Create a set of new MessageBuffers

7
src/mem/ruby/network/simple/SimpleNetwork.hh
View file

@ -59,14 +59,11 @@ class SimpleNetwork : public Network
bool isVNetOrdered(int vnet) const { return m_ordered[vnet]; } bool isVNetOrdered(int vnet) const { return m_ordered[vnet]; }
// Methods used by Topology to setup the network // Methods used by Topology to setup the network
void makeOutLink(SwitchID src, NodeID dest, BasicLink* link, void makeExtOutLink(SwitchID src, NodeID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry); const NetDest& routing_table_entry);
void makeInLink(NodeID src, SwitchID dest, BasicLink* link, void makeExtInLink(NodeID src, SwitchID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry); const NetDest& routing_table_entry);
void makeInternalLink(SwitchID src, SwitchID dest, BasicLink* link, void makeInternalLink(SwitchID src, SwitchID dest, BasicLink* link,
LinkDirection direction,
const NetDest& routing_table_entry); const NetDest& routing_table_entry);
void print(std::ostream& out) const; void print(std::ostream& out) const;

8
src/mem/ruby/network/simple/SimpleNetwork.py
View file

@ -56,12 +56,10 @@ class SimpleNetwork(RubyNetwork):
# Also add buffers for all router-link connections # Also add buffers for all router-link connections
for router in self.routers: for router in self.routers:
router_buffers = [] router_buffers = []
# Add message buffers to routers for each internal link connection # Add message buffers to routers at the end of each
# unidirectional internal link
for link in self.int_links: for link in self.int_links:
if link.node_a == router: if link.dst_node == router:
for i in xrange(self.number_of_virtual_networks):
router_buffers.append(MessageBuffer(ordered = True))
if link.node_b == router:
for i in xrange(self.number_of_virtual_networks): for i in xrange(self.number_of_virtual_networks):
router_buffers.append(MessageBuffer(ordered = True)) router_buffers.append(MessageBuffer(ordered = True))