mem: hmc: top level design

This patch enables modeling a complete Hybrid Memory Cube (HMC) device. It
highly reuses the existing components in gem5's general memory system with some
small modifications. This changeset requires additional patches to model a
complete HMC device.

Committed by: Nilay Vaish <nilay@cs.wisc.edu>

1 files changed, 238 insertions, 0 deletions

diff --git a/configs/common/HMC.py b/configs/common/HMC.py
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+# Copyright (c) 2012-2013 ARM Limited
+# All rights reserved.
+#
+# The license below extends only to copyright in the software and shall
+# not be construed as granting a license to any other intellectual
+# property including but not limited to intellectual property relating
+# to a hardware implementation of the functionality of the software
+# licensed hereunder.  You may use the software subject to the license
+# terms below provided that you ensure that this notice is replicated
+# unmodified and in its entirety in all distributions of the software,
+# modified or unmodified, in source code or in binary form.
+#
+# Copyright (c) 2015 The University of Bologna
+# 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: Erfan Azarkhish
+
+# A Simplified model of a complete HMC device. Based on:
+#  [1] http://www.hybridmemorycube.org/specification-download/
+#  [2] High performance AXI-4.0 based interconnect for extensible smart memory
+#      cubes(E. Azarkhish et. al)
+#  [3] Low-Power Hybrid Memory Cubes With Link Power Management and Two-Level
+#      Prefetching (J. Ahn et. al)
+#  [4] Memory-centric system interconnect design with Hybrid Memory Cubes
+#      (G. Kim et. al)
+#  [5] Near Data Processing, Are we there yet? (M. Gokhale)
+#      http://www.cs.utah.edu/wondp/gokhale.pdf
+#
+# This script builds a complete HMC device composed of vault controllers,
+# serial links, the main internal crossbar, and an external hmc controller.
+#
+# - VAULT CONTROLLERS:
+#   Instances of the HMC_2500_x32 class with their functionality specified in
+#   dram_ctrl.cc
+#
+# - THE MAIN XBAR:
+#   This component is simply an instance of the NoncoherentXBar class, and its
+#   parameters are tuned to [2].
+#
+# - SERIAL LINKS:
+#   SerialLink is a simple variation of the Bridge class, with the ability to
+#   account for the latency of packet serialization. We assume that the
+#   serializer component at the transmitter side does not need to receive the
+#   whole packet to start the serialization. But the deserializer waits for
+#   the complete packet to check its integrity first.
+#   * Bandwidth of the serial links is not modeled in the SerialLink component
+#     itself. Instead bandwidth/port of the HMCController has been adjusted to
+#     reflect the bandwidth delivered by 1 serial link.
+#
+# - HMC CONTROLLER:
+#   Contains a large buffer (modeled with Bridge) to hide the access latency
+#   of the memory cube. Plus it simply forwards the packets to the serial
+#   links in a round-robin fashion to balance load among them.
+#   * It is inferred from the standard [1] and the literature [3] that serial
+#     links share the same address range and packets can travel over any of
+#     them so a load distribution mechanism is required among them.
+
+import optparse
+
+import m5
+from m5.objects import *
+
+# A single Hybrid Memory Cube (HMC)
+class HMCSystem(SimOject):
+
+    #*****************************CROSSBAR PARAMETERS*************************
+    # Flit size of the main interconnect [1]
+    xbar_width = Param.Unsigned( 32, "Data width of the main XBar (Bytes)")
+
+    # Clock frequency of the main interconnect [1]
+    # This crossbar, is placed on the logic-based of the HMC and it has its
+    # own voltage and clock domains, different from the DRAM dies or from the
+    # host.
+    xbar_frequency = Param.Frequency('1GHz', "Clock Frequency of the main "
+        "XBar")
+
+    # Arbitration latency of the HMC XBar [1]
+    xbar_frontend_latency = Param.Cycles(1, "Arbitration latency of the XBar")
+
+    # Latency to forward a packet via the interconnect [1](two levels of FIFOs
+    # at the input and output of the inteconnect)
+    xbar_forward_latency = Param.Cycles(2, "Forward latency of the XBar")
+
+    # Latency to forward a response via the interconnect [1](two levels of
+    # FIFOs at the input and output of the inteconnect)
+    xbar_response_latency = Param.Cycles(2, "Response latency of the XBar")
+
+    #*****************************SERIAL LINK PARAMETERS**********************
+    # Number of serial links [1]
+    num_serial_links = Param.Unsigned(4, "Number of serial links")
+
+    # Number of packets (not flits) to store at the request side of the serial
+    #  link. This number should be adjusted to achive required bandwidth
+    link_buffer_size_req = Param.Unsigned( 16, "Number of packets to buffer "
+        "at the request side of the serial link")
+
+    # Number of packets (not flits) to store at the response side of the serial
+    #  link. This number should be adjusted to achive required bandwidth
+    link_buffer_size_rsp = Param.Unsigned( 16, "Number of packets to buffer "
+        "at the response side of the serial link")
+
+    # Latency of the serial link composed by SER/DES latency (1.6ns [4]) plus
+    # the PCB trace latency (3ns Estimated based on [5])
+    link_latency = Param.Latency('4.6ns', "Latency of the serial links")
+
+    # Header overhead of the serial links: Header size is 128bits in HMC [1],
+    #  and we have 16 lanes, so the overhead is 8 cycles
+    link_overhead = Param.Cycles(8, "The number of cycles required to"
+        " transmit the packet header over the serial link")
+
+    # Clock frequency of the serial links [1]
+    link_frequency = Param.Frequency('10GHz', "Clock Frequency of the serial"
+        "links")
+
+    # Number of parallel lanes in each serial link [1]
+    num_lanes_per_link =  Param.Unsigned( 16, "Number of lanes per each link")
+
+    # Number of serial links [1]
+    num_serial_links =  Param.Unsigned( 4, "Number of serial links")
+
+    #*****************************HMC CONTROLLER PARAMETERS*******************
+    # Number of packets (not flits) to store at the HMC controller. This
+    # number should be high enough to be able to hide the high latency of HMC
+    ctrl_buffer_size_req = Param.Unsigned( 256, "Number of packets to buffer "
+        "at the HMC controller (request side)")
+
+    # Number of packets (not flits) to store at the response side of the HMC
+    #  controller.
+    ctrl_buffer_size_rsp = Param.Unsigned( 256, "Number of packets to buffer "
+        "at the HMC controller (response side)")
+
+    # Latency of the HMC controller to process the packets
+    # (ClockDomain = Host clock domain)
+    ctrl_latency = Param.Cycles(4, "The number of cycles required for the "
+        " controller to process the packet")
+
+    # Wiring latency from the SoC crossbar to the HMC controller
+    ctrl_static_latency = Param.Latency('500ps', "Static latency of the HMC"
+        "controller")
+
+    #*****************************PERFORMANCE MONITORING**********************
+    # The main monitor behind the HMC Controller
+    enable_global_monitor = Param.Bool(True, "The main monitor behind the "
+        "HMC Controller")
+
+    # The link performance monitors
+    enable_link_monitor = Param.Bool(True, "The link monitors" )
+
+# Create an HMC device and attach it to the current system
+def config_hmc(options, system):
+
+    system.hmc=HMCSystem()
+
+    system.buffer = Bridge(ranges=system.mem_ranges,
+        req_size=system.hmc.ctrl_buffer_size_req,
+        resp_size=system.hmc.ctrl_buffer_size_rsp,
+        delay=system.hmc.ctrl_static_latency)
+    try:
+        system.hmc.enable_global_monitor = options.enable_global_monitor
+    except:
+        pass;
+
+    try:
+        system.hmc.enable_link_monitor = options.enable_link_monitor
+    except:
+        pass;
+
+    system.membus.master = system.buffer.slave
+
+    # The HMC controller (Clock domain is the same as the host)
+    system.hmccontroller = HMCController(width=(system.hmc.num_lanes_per_link.
+        value * system.hmc.num_serial_links/8),
+        frontend_latency=system.hmc.ctrl_latency,
+        forward_latency=system.hmc.link_overhead,
+        response_latency=system.hmc.link_overhead)
+
+    system.hmccontroller.clk_domain = SrcClockDomain(clock=system.hmc.
+        link_frequency, voltage_domain = VoltageDomain(voltage = '1V'))
+
+    # Serial Links
+    system.hmc.seriallink =[ SerialLink(ranges = system.mem_ranges,
+        req_size=system.hmc.link_buffer_size_req,
+        resp_size=system.hmc.link_buffer_size_rsp,
+        num_lanes=system.hmc.num_lanes_per_link,
+        delay=system.hmc.link_latency)
+        for i in xrange(system.hmc.num_serial_links)]
+
+    if system.hmc.enable_link_monitor:
+        system.hmc.lmonitor = [ CommMonitor()
+        for i in xrange(system.hmc.num_serial_links)]
+
+    # The HMC Crossbar located in its logic-base (LoB)
+    system.hmc.xbar = NoncoherentXBar(width = system.hmc.xbar_width,
+        frontend_latency=system.hmc.xbar_frontend_latency,
+        forward_latency=system.hmc.xbar_forward_latency,
+        response_latency=system.hmc.xbar_response_latency )
+    system.hmc.xbar.clk_domain = SrcClockDomain(clock =
+        system.hmc.xbar_frequency, voltage_domain =
+        VoltageDomain(voltage = '1V'))
+
+    if system.hmc.enable_global_monitor:
+        system.gmonitor = CommMonitor()
+        system.buffer.master = system.gmonitor.slave
+        system.gmonitor.master = system.hmccontroller.slave
+    else:
+        system.hmccontroller.slave = system.buffer.master
+
+    for i in xrange(system.hmc.num_serial_links):
+        system.hmccontroller.master = system.hmc.seriallink[i].slave
+        system.hmc.seriallink[i].clk_domain = system.hmccontroller.clk_domain;
+        if system.hmc.enable_link_monitor:
+            system.hmc.seriallink[i].master = system.hmc.lmonitor[i].slave
+            system.hmc.lmonitor[i].master = system.hmc.xbar.slave
+        else:
+            system.hmc.seriallink[i].master = system.hmc.xbar.slave