Processing Data Where It Makes Sense in Modern Computing Systems: Enabling In-Memory Computation

Speaker: Prof. Onur Mutlu , ETH Zurich

Date: Monday, December 10, 2018

Time: 4:00 PM to 5:30 PM

Public: Yes

Location: 32-G882

Event Type: Seminar

Room Description:

Host: Professor Srinivas Devadas, CSG - CSAIL - MIT

Contact: Sally O. Lee, 3-6837,

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Reminder Subject: TALK: Processing Data Where It Makes Sense in Modern Computing Systems: Enabling In-Memory Computation

Today's systems are overwhelmingly designed to move data to
computation. This design choice goes directly against at least three
key trends in systems that cause performance, scalability and energy
bottlenecks: 1) data access from memory is already a key bottleneck as
applications become more data-intensive and memory bandwidth and
energy do not scale well, 2) energy consumption is a key constraint in
especially mobile and server systems, 3) data movement is very
expensive in terms of bandwidth, energy and latency, much more so than
computation. These trends are especially severely-felt in the
data-intensive server and energy-constrained mobile systems of today.

At the same time, conventional memory technology is facing many
scaling challenges in terms of reliability, energy, and
performance. As a result, memory system architects are open to
organizing memory in different ways and making it more intelligent, at
the expense of slightly higher cost. The emergence of 3D-stacked
memory plus logic as well as the adoption of error correcting codes
inside the latest DRAM chips are an evidence of this trend.

In this talk, I will discuss some recent research that aims to
practically enable computation close to data. After motivating trends
in applications as well as technology, we will discuss at least two
promising directions: 1) performing massively-parallel bulk operations
in memory by exploiting the analog operational properties of DRAM,
with low-cost changes, 2) exploiting the logic layer in 3D-stacked
memory technology in various ways to accelerate important
data-intensive applications. In both approaches, we will discuss
relevant cross-layer research, design, and adoption challenges in
devices, architecture, systems, applications, and programming
models. Our focus will be the development of in-memory processing
designs that can be adopted in real computing platforms and real
data-intensive applications, spanning machine learning, graph
processing and genome analysis, at low cost. If time permits, we will
also discuss and describe evaluation infrastructures that can enable
exciting and forward-looking research in future memory
systems, including Ramulator and SoftMC.

Onur Mutlu is a Professor of Computer Science at ETH Zurich. He is
also a faculty member at Carnegie Mellon University, where he
previously held Strecker Early Career Professorship. His current
broader research interests are in computer architecture, systems, and
bioinformatics. He obtained his PhD and MS in ECE from the University
of Texas at Austin and BS degrees in Computer Engineering and
Psychology from the University of Michigan, Ann Arbor. His started the
Computer Architecture Group at Microsoft Research (2006-2009), and
held various product and research positions at Intel Corporation,
Advanced Micro Devices, VMware, and Google. He received the inaugural
IEEE Computer Society Young Computer Architect Award, the inaugural
Intel Early Career Faculty Award, US National Science Foundation
CAREER Award, Carnegie Mellon University Ladd Research Award, faculty
partnership awards from various companies, and a healthy number of
best paper or "Top Pick" paper recognitions at various computer
systems and architecture venues. He is an ACM Fellow, IEEE Fellow, and
an elected member of the Academy of Europe (Academia Europaea). For
more information, please see his webpage at
NOTE: refreshments at 3:45 pm

Research Areas:
Systems & Networking

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This event is not part of a series.

Created by Sally O. Lee Email at Thursday, November 29, 2018 at 2:32 PM.