c1aecc05e6
This patch extensively modifies DSENT so that it can be accessed using Python. To access the Python interface, DSENT needs to compiled as a shared library. For this purpose a CMakeLists.txt file has been added. Some of the code that is not required is being removed. |
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.. | ||
configs | ||
libutil | ||
model | ||
tech | ||
util | ||
CMakeLists.txt | ||
DSENT.cc | ||
DSENT.h | ||
interface.cc | ||
LICENSE | ||
README |
DSENT (Design Space Exploration of Networks Tool) =============================================================================== Overview =============================================================================== DSENT is a modeling tool designed for rapid design space exploration of both electronical and emerging opto-electrical networks-on-chip (NoC). It provides analytic and parameterized models for various network components and is portable across a range of technology assumptions. Given architectural-level parameters, DSENT builds the specified models hierarchically from electrical and optical building blocks and outputs detailed power and area estimates. =============================================================================== Version =============================================================================== Current: 0.91 (26 June 2012) Latest version or additional information can be found at https://sites.google.com/site/mitdsent =============================================================================== System requirements =============================================================================== We have tested DSENT on the following platforms: Linux GNU g++ 4.1.2 and glibc 2.5 Linux GNU g++ 4.3.2 and glibc 2.7 Linux GNU g++ 4.4.5 and glibc 2.11.3 Cygwin g++ 4.5.3 and cygwin 1.7.14 =============================================================================== License =============================================================================== Please refer to the LICENSE file for licensing and copyright information. If you use DSENT in your research, please acknowledge us by referencing our NOCS 2012 paper: Chen Sun, Chia-Hsin Owen Chen, George Kurian, Lan Wei, Jason Miller, Anant Agarwal, Li-Shiuan Peh, Vladimir Stojanovic, "DSENT - A Tool Connecting Emerging Photonics with Electronics for Opto-Electronic Networks-on-Chip Modeling." The 6th ACM/IEEE International Symposium on Networks-on-Chip (NOCS), May 2012, Lyngby, Denmark. =============================================================================== Contact information =============================================================================== If you have any questions or comments, please contact us through our mailing list at: mitdsent@mit.edu We will try to reply as soon as possible. =============================================================================== Build (installation) =============================================================================== To build DSENT: % make By default DSENT is built with logging disabled. Logging keeps track of what happens while running DSENT. It is an option more for the DSENT framework and DSNET models developers. If you want to enable this option, simply type the following: % make LIBUTIL_IS_LOG=true To clean the build: % make clean =============================================================================== Usage =============================================================================== DSENT builds models and runs based on the specified configuration file. In the configuration file, you specify a model name and necessary information (parameters and properties) required to build the model. To run DSENT: % ./dsent -cfg <config_filename> To check what models are available: % ./dsent -available_models To overwrite the configuration file from command line: Use ';' to separate different key/value pairs. % ./dsent -cfg <config_filename> -overwrite <new query string> % ./dsent -cfg configs/example.cfg -overwrite "NumberInputs=5; NumberOutputs=6;" To print out in a more human-friendly fasion: % ./dsent -cfg <config_filename> -verbose To check what options are available: % ./dsent -help Please see configs/example.cfg for an example of a configuration file. Please see configs/router.cfg for the router configuration file. Please see QueryString and EvaluateString specifications below to know more about the usage. =============================================================================== Advanced Usage =============================================================================== Since DSENT is a generic modeling framework for electrical and optical components, you can create your own models. We will release guidelines on how to create custom models on top of DSENT framework. You can use the provided models as references. =============================================================================== Quick start for Orion users =============================================================================== Instead of using the SIM_port.h file, DSENT uses a text-based configuration file to specify the router/link configurations. You do not need to recompile if you change parameters. Even though we use different parameter names, the ones we use should be self-explanatory. In this package, we provide template configuration files for the router and link: router - configs/router.cfg link - configs/electrical-link.cfg Technology ---------- We currently support 45, 32, 22, 11nm. You can specify the desired frequency but not the nominal voltage level since it is normally fixed in different processes. Router specs ------------ Currently we only support the model of a widely used 3-pipeline-stage input-buffered virtual channel router and does not have distinction from ports for different components (cache, memory controller, I/O). Input buffer specs ------------------ The number of virtual channels used for different message classes might be different; hence, DSENT uses NumberVirtualNetworks to specify the number of message classes and use NumberVirtualChannelsPerVirtualNetwork and NumberBuffersPerVirtualChannel to define the buffers needed for a virtual network (message class). Currently only DFF-based RAM is supports. This is reasonable since normally the buffer space needed at input port is small enough and does not need to use SRAMs or RFs (register files). Crossbar specs -------------- Currently DSENT only supports multiplexer-based crossbars (MULTREE_CROSSBAR). You no longer need to specify the degree of the multiplexers. Switch allocator specs ---------------------- DSENT models a two-stage switch allocator. The first stage is used to arbitrate between VCs in the same input port, and the second stage is used to arbitrate between input ports. If there is only one VC in the input port, then the energy/power/area cost for the first stage will be zero. Currently, DSENT supports MatrixArbiter. VC allocator specs ------------------ We assume that the router uses a VC select scheme where the VC allocation is done by just popping a FIFO. Currently DSENT ignores this module since the FIFO that needs to keep the free VC information should be small enough. Clock distribution specs ------------------------ Currently DSENT provides a broadcast H-Tree model. You can specify the number of levels of the H-Tree (normally 4 or 5 levels should be enough). DSENT replaces the original orion_router_power, orion_router_area and orion_link with QueryString and EvaluateString (see below for more detailed information on how to use them). =============================================================================== QueryString specifications =============================================================================== DSENT is a query-based model evaluator. You use QueryString to specify what information you want DSENT to output. The syntax of a query string is shown as follows: [Query type]>>[Instance name (with hierarchy)]:[Sub query type]@[Detail level] E.g., Area>>Router->Crossbar:Active@4 * Query type: Area * Instance name: Router->Crossbar * Sub query type: Active * Detail level: 4 Query type ---------- There are 9 types of queries: Parameter, Property, Energy, NddPower, Area, InstHier, EventHier, NddPowerHier, AreaHier. Parameter - Print the model parameters needed to be specified Property - Print the design constraints or utilization Use these to check what needs to be specified in the configuration file for the model. No sub query type is needed for these two types. Energy - Print the data-dependent energy cost of an event NddPower - Print the non-data-denepent power of an instance Area - Print the area cost of an instance Use these to obtain the costs of the specified model. InstHier - Print the instance name hierarchy Use this to know what sub-instances are built for this model EventHier - Print the available events for Energy queries NddPowerHier - Print the available non-data-dependent power types AreaHier - Print the available area types Use this to know what to specify in the "sub query type" field. Instance name (with hierarchy) ------------------------------ The (sub)instance that you want to perform query. The name should be hierarchical starting from the top level model. Hierarchies are separated by the symbol "->". Sub query type -------------- This field is not required for 'Parameter', 'Property' and 'InstHier'. For 'Energy', this field stands for the event that cause this energy cost, such as 'WriteBuffer'. For 'NddPower' and 'Area', this field stands for the power and area cost of the model, such as 'Leakage' and 'Active'. For 'EventHier', if this field is not specified, all events of this instance will be printed; if this field is specified, then only the specified event will be printed. 'AreaHier' and 'NddPowerHier' also have the similar behavior. Detail level ------------ Defines the hierarchy depth to be printed. '0' means current level. This field is needed for all query types for syntax correctness, although it is not used for 'Parameter' and 'Property'. Multi-line queries ------------------ Query strings specified across multiple lines in the config file must have each line be terminated by a '\'. It is whitespace sensitive, so make sure there are no spaces after '\'. Note that the parser prunes everything after the comment '#' character, including '\'! See configs/router.cfg as an example. Examples of individual QueryString's: Parameter>>Router@0 Property>>Router->Crossbar@0 InstHier>>Router->InputPort@2 Energy>>Router:WriteBuffer@2 NddPower>>Router->Crossbar:Leakage@3 Area>>Router->SwitchAllocator:Active@4 =============================================================================== EvaluateString specifications =============================================================================== DSENT provides a way to let users do custom calculations by specifying the EvaluateString in the configuration file. EvaluateString constains a sequence of statements separated by one ';'. DSENT reads through the sequence and evaluates the statements one-by-one. Currently, DSENT supports: Four arithmetic operations -------------------------- 3 + 4 * (5 + 6) / 7; Define local variables through assignments ------------------------------------------ variable 'a' will be mapped to 7 for future referencing a = 3 + 4; Global variable referencing --------------------------- $(var_name) indicates either a key in the configuration file or a query string. If var_name exists in the configuration file, then the corresponding value will be returned; otherwise, DSENT will do a query using the string var_name@0 and return the query result. b = $(Energy>>Router:WriteBuffer) * $(Frequency); Printing outputs ---------------- DSENT prints the string following the keyword 'print'. print <expression> print "<string_to_print>"; print "<string_to_print>" <expression>; print 3 + 4; # Output: 7 print "Hello World"; # Output: Hello World print "Hello World " 3 + 4; # Output: Hello World 7 Multi-line evaluate strings --------------------------- Evaluate strings specified across multiple lines in the config file must have each line be terminated by a '\'. It is whitespace sensitive, so make sure there are no spaces after '\'. Note that the parser prunes everything after the comment '#' character, including '\'! See configs/router.cfg as an example. =============================================================================== Units =============================================================================== DSENT uses only SI units for all inputs and outputs. For example: time = s (second) distance = m (meter) capacitance = F (Farad) power = W (Watt) energy = J (Joule) resistance = Ohm loss = dB (Decibels) =============================================================================== Known Bugs and Issues =============================================================================== 1. If timing is not met, the timing optimizer will put the model in a state where everything is the maximum size (huge power, area). Thus, model results can be considered a gross over-estimate when timing isn't met. This is just the nature of the greedy timing optimizer and it will be addressed in the future. 2. The VC control and credit buffer component of the router is currently not modeled, as they have always been assumed to be lumped into the "negligible control cost" category in previous models and evaluations. Our recent experiments have shown that this is not true and we will be adding this in the next iteration. 3. Some of the connectivity paths have not been checked thoroughly. Thus, timing optimizer may miss some of the paths. However, we tried to make sure that the critical paths are modeled properly. 4. Local interconnect will have an ever-larger impact on power and timing as technology scales. So far we have not implemented a method for automatically estimating them but we will eventually address this. Evaluations for 22nm and below will tend to underestimate as a result. =============================================================================== Revision log =============================================================================== V0.91: Bugs fix: 1. Leakage power calculation printout for router (configs/router.cfg). New feature: 1. Area printout for router (configs/router.cfg). V0.9: First release.