[Crib-list] Speaker: MIRIAM LEESER (Northeastern University) -- Computational Research in Boston Seminar -- Friday, 03/06/2009 -- 12:30 PM in Building 32, Room 144 (Stata Center) (fwd)
Shirley Entzminger
daisymae at math.mit.edu
Fri Mar 6 10:28:45 EST 2009
T O D A Y...
COMPUTATIONAL RESEARCH in BOSTON SEMINAR
DATE: Friday, MARCH 6, 2009
TIME: 12:30 PM
LOCATION: Building 32, Room 144 (Stata Center)
Pizza and beverages will be provided at 12:15 PM outside Room 32-144.
TITLE: Vforce: Aiding the Productivity and Portability in
Reconfigurable Supercomputer Applications via Runtime
Hardware Binding
SPEAKER: MIRIAM LEESER (Northeastern University)
ABSTRACT:
Recently there has been an explosion of new computer architectures that
combine multiple CPUs with Special Purpose Processors (SPPs). Examples of
SPPs include Field Programmable Gate Arrays (FPGAs), Graphics Processing
Units (GPUs) and the Cell Broadband Engine. Powerful multicomputer
platforms that combine SPPs and CPUs in a single hardware architecture
promise tremendous performance benefits. Applications that can run on any
of these platforms, deliver performance and be easily ported to other
platforms are highly desirable. Traditional programming practices,
however, intertwine application code with hardware specific code such that
porting entails a significant rewrite of the application and reuse of code
is difficult.
VSIPL++ for Reconfigurable Computing (Vforce) is a middleware framework
that extends VSIPL++ (a C++ extension of the Vector, Signal, and Image
Processing Library) to include support for special purpose processors
(SPPs). Vforce is an extensible framework that allows the same
application code to run on different heterogeneous computing platforms.
Vforce offers application-level portability, framework-level extensibility
to new hardware, and system-level run time resource management. In
particular, Vforce supports very late binding of the application to a
specific hardware platform such that binding does not occur until run
time.
In this talk, I will give a brief introduction to VSIPL++ and to some
commercially available heterogeneous multicomputers. Then I will present
the Vforce framework and explain how it supports the three goals of
performance, productivity and portability. I will present our experience
using Vforce on different hardware platforms (including those with FPGAs
and those with GPUs) as well as different applications.
Biography:
---------
Miriam Leeser is a Professor at Northeastern University, Department of
Electrical and Computer Engineering. She received her BS degree in
Electrical Engineering from Cornell University, and Diploma and Ph.D.
Degrees in Computer Science from Cambridge University in England. After
completion of her Ph.D., she joined the faculty of Cornell University,
Department of Electrical Engineering as an Assistant Professor. In
January, 1996 she joined the faculty of Northeastern University, where she
is head of the Reconfigurable Computing Laboratory and a member of the
Computer Engineering research group and the Center for Communications and
Digital Signal Processing. In 1992 she received an NSF Young Investigator
Award to conduct research into Floating Point Arithmetic. Her research
interests include hardware description languages, programming paradigms
for many core computers, computer arithmetic and reconfigurable computing
for signal and image processing applications. She is a senior member of
the IEEE and of the ACM.
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