automated instruction set extension for coins (Coins-compiler-users) - COINS Compiler Infrastructure

http://carg.site.uottawa.ca/literature.html

On Tue, Apr 1, 2008 at 12:18 AM, Daniel Shapiro <dcsha****@gmail*****> wrote:

> Hi All,
>
> Here is our high-level documentation.
>
>
> On Mon, Mar 31, 2008 at 5:03 PM, Daniel Shapiro <dcsha****@gmail*****>
> wrote:
>
> > Unfortunately, the message bounces from that mailing list when I include
> > attachments, so below is the message again without the attachments:
> >
> >
> > On Mon, Mar 31, 2008 at 5:00 PM, Daniel Shapiro <dcsha****@gmail*****>
> > wrote:
> >
> > > Hi Sir,
> > >
> > > Sorry for the delay in response. I'm glad to provide you with our
> > > documentation. We are working on multiprocessor systems on chip tools. I've
> > > attached some posters we used to present our toolchain at a poster session.
> > > At that point we were thinking about using GCC, but now that we have looked
> > > closely, we think that COINS will be easier to use for our purposes. My
> > > supervisor's name is Dr. Miodrag Bolic (http://site.uottawa.ca/~mbolic<http://site.uottawa.ca/%7Embolic>),
> > > and we also have help from Prof Groza and his students (
> > > http://site.uottawa.ca/~groza/ <http://site.uottawa.ca/%7Egroza/>).
> > > One important goal we have is to keep the tool open-source and accessible to
> > > the wider community.
> > >
> > > We are trying to implement in COINS large new instructions like the
> > > fuzzy logic block shown in the datapath in "carg_poster_fl.ppt". At first we
> > > want to do this manually to get a feel for the structure of coins, and then
> > > we want to add ISE identification.
> > >
> > > The concept of ISE identification may be familiar to you because of
> > > the Xtensa processor backend from Tensilica. The instruction set extension
> > > (ISE) identification problem is the search for a set of custom instructions
> > > which can be added to a processor description without violating some
> > > constraints such as area and power consumption. A sub-problem is to complete
> > > the ISE identification without searching for too long. The searches tend to
> > > be long because like many other compiler algorithms, the ISE identification
> > > problem is NP-hard. And so many proposed solutions to large problems - such
> > > as a large C program being compiled by GCC - are exact but return results
> > > too slowly. We propose a heuristic in the form of an integer linear program.
> > > We want to show the need for a mix of small instructions which are repeated
> > > often, and large instructions which although rare provide a large speedup.
> > > We propose a method for reducing the execution time of the solver by
> > > allowing the compiler to define a cutoff execution time between improvements
> > > in the solution, and a maximum execution time for the solver. Furthermore we
> > > define the objective function as the number of cycles saved due to the
> > > selection of custom instructions, because this measurement is additive. We
> > > include in the ISE identification problem some local and global constraints
> > > on code defined by the user.
> > >
> > > This semester we are using the LEON3 processor and adding a fuzzy
> > > logic block to it. We want to use COINS to program the LEON3+fuzzy-logic
> > > processor. Also, we are finishing up work on a multiprocessor interconnect
> > > network generator written in java. It allows us to do simulation, design
> > > space exploration, and VHDL implementation of multiprocessor systems. We are
> > > just writing the paper for that now. My research group (
> > > carg.site.uottawa.ca) is funded by an NSERC grant from the government
> > > of canada to research the following:
> > >
> > > It is becoming increasingly difficult to design systems on chip (SoC)
> > > due to their high complexity and
> > > increasing design requirements. Processing requirements of the
> > > majority of applications are growing and cannot
> > > be solved by single embedded processors, but by extending the systems
> > > with customized configurable or
> > > reconfigurable hardware (HW) or designing multiprocessing systems.
> > > Existent SoC design flows require highly
> > > qualified specialists, with proficiency in both HW and SW, to collect
> > > system requirements and to make
> > > structural decisions. Given the significant number of design choices,
> > > the only possible options to address these
> > > problems are automatic exploration of the design space and intelligent
> > > acquisition of design requirements.
> > > The main objective of this complex far-reaching project is to develop
> > > a methodology and tools to automate the
> > > SoC design based on configurable and reconfigurable single and
> > > multi-processors. Our final goals of the
> > > project, whose essential modules will be developed here, are to
> > > develop a framework that will automatically
> > > generate a multiprocessor system with custom instructions implemented
> > > using configurable and reconfigurable
> > > hardware that satisfies user requirements. We will focus on issues
> > > related to real-time applications where a set
> > > of timing and area constraints is imposed on the implementation.
> > > Furthermore we aim to completely abstract
> > > the complexities of this compilation process from the user, and,
> > > instead, to collect requirements through an
> > > intelligent user interface in an integrated development environment.
> > > Our approach is to formulate the design
> > > task as a series of optimization problems and to develop efficient
> > > methods to solve them. We will also
> > > concentrate on design steps at the system level, such as design space
> > > exploration, automated generation of
> > > custom instructions, architecture selection, performance estimation,
> > > and selection between configurable or
> > > reconfigurable architectures. As a part of this project, research on
> > > multiprocessor systems with configurable
> > > and reconfigurable capabilities will be pursued. Numerous Canadian
> > > companies will be interested in the
> > > increased productivity associated with our system.
> > >
> > > I can provide you with more information if you have any questions. In
> > > summary, we are tinkering with COINS, trying to add large custom
> > > instructions. Anyone who has a minute to chat can call me on skype. My
> > > screen name is dcshapiro.
> > >
> > > Thanks for listening,
> > >
> > >
> > >
> > > On Fri, Mar 28, 2008 at 9:36 PM, nakata <nakat****@kamak*****>
> > > wrote:
> > >
> > > >  Dear Daniel,
> > > >
> > > > I'd like to know the details of your project.
> > > > Can I read your documentation ?
> > > >
> > > > Thanks,
> > > >
> > > > Ikuo Nakata
> > > >
> > > > At 11:41 AM -0400 08.3.28, Daniel Shapiro wrote:
> > > >
> > > > Hi,
> > > >
> > > > I'm part of a project at the University of Ottawa that is trying to
> > > > add instruction set extension to COINS. We are trying first manually, and
> > > > then from basic-block analysis. Three of us are working right now at the
> > > > LIR/TMD level and trying to add a large instruction manually to the SPARC
> > > > ISA. We've been through the documentation and the code for the SPARC
> > > > backend, and we've built a few simple compiler drivers. Is there anyone in
> > > > the COINS project who might be able/interested in talking to us about COINS
> > > > and how we might be able to contribute in this direction?
> > > >
> > > > Thanks,
> > > >
> > > > --
> > > > Daniel Shapiro, B.A.Sc ., M.A.Sc. (Candidate)
> > > >
> > > > School of Information Technology and Engineering (SITE), University
> > > > of Ottawa
> > > > Tel: (613) 562-5800 ext. 2189
> > > > Office: SITE4009
> > > > Email: dshap092 -at- site.uottawa.ca
> > > > Website: site.uottawa.ca/~dshap092/<http://site.uottawa.ca/%7Edshap092/>
> > > > Research Group: carg.site.uottawa.ca/
> > > >
> > > >
> > > > _______________________________________________
> > > > Coins-compiler-users mailing list
> > > > Coins****@lists*****
> > > >
> > > > http://lists.sourceforge.jp/mailman/listinfo/coins-compiler-users
> > > >
> > > >
> > > > --
> > > >
> > > > Ikuo Nakata
> > > > E-mail: nakat****@kamak*****
> > > >
> > >
> > >
> > >
> > > --
> > > Daniel Shapiro, B.A.Sc ., M.A.Sc. (Candidate)
> > >
> > > School of Information Technology and Engineering (SITE), University of
> > > Ottawa
> > > Tel: (613) 562-5800 ext. 2189
> > > Office: SITE4009
> > > Email: dshap092 -at- site.uottawa.ca
> > > Website: site.uottawa.ca/~dshap092/<http://site.uottawa.ca/%7Edshap092/>
> > > Research Group: carg.site.uottawa.ca/
> > >
> >
> >
> >
> > --
> > Daniel Shapiro, B.A.Sc ., M.A.Sc. (Candidate)
> >
> > School of Information Technology and Engineering (SITE), University of
> > Ottawa
> > Tel: (613) 562-5800 ext. 2189
> > Office: SITE4009
> > Email: dshap092 -at- site.uottawa.ca
> > Website: site.uottawa.ca/~dshap092/<http://site.uottawa.ca/%7Edshap092/>
> > Research Group: carg.site.uottawa.ca/
> >
>
>
>
> --
> Daniel Shapiro, B.A.Sc ., M.A.Sc. (Candidate)
>
> School of Information Technology and Engineering (SITE), University of
> Ottawa
> Tel: (613) 562-5800 ext. 2189
> Office: SITE4009
> Email: dshap092 -at- site.uottawa.ca
> Website: site.uottawa.ca/~dshap092/ <http://site.uottawa.ca/%7Edshap092/>
> Research Group: carg.site.uottawa.ca/
>


-- 
Daniel Shapiro, B.A.Sc ., M.A.Sc. (Candidate)

School of Information Technology and Engineering (SITE), University of
Ottawa
Tel: (613) 562-5800 ext. 2189
Office: SITE4009
Email: dshap092 -at- site.uottawa.ca
Website: site.uottawa.ca/~dshap092/
Research Group: carg.site.uottawa.ca/
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[Coins-compiler-users] automated instruction set extension for coins