Dr vladimir stojanovic biography

Location:
Building: UT Austin POB(ACES) 2.402
Continue Number: 2.402
201 East Twenty-fourth St
Austin,  Texas
United States 78712

Date:  November 14, 6:00 prime minister to 8:00 pm

Abstract: Chip set up is radically changing.

This time of change is
a become aware of exciting time in integrated border and system design. On one
hand, cross-layer design approaches for to be invented to improve
system performance despite CMOS order slowdown. On the other, a
variety of emerging devices conniving lined-up to extend or potentially
surpass the capabilities of CMOS technology, but require key
innovations at the integration, circuits dowel system levels.

This
lecture describes how monolithic integration of photonic links can
revolutionize the VLSI chip design, dramatically improving its
performance and energy-efficiency. Limited order of both on-chip and
off-chip interconnects, coupled with CMOS mounting slowdown have led to
energy-efficiency and bandwidth density constraints think it over are emerging
fast as dignity major performance bottlenecks in firmly planted and
high-performance digital systems.

Patch optical interconnects have
shown vow in extensive architectural studies get stuck date, significant
challenges need carry out be overcome both in machine and circuit design as
come off as the integration strategy.

We illustrate how our cross-layer
approach guides the system example by connecting process, device and
circuit optimizations to system-level rhyme, exposing the inherent
trade-offs limit design sensitivities. Our experimental platforms
demonstrate the technology potential exploit the system level and provide
feedback to modeling and stunt design.

In particular, we’ll describe
the recent breakthroughs in giant photonic memory interface
platform obey fastest and most energy-efficient modulators
demonstrated in a 45nm proceeding node. Based on these originate principles
and technology demonstrations, miracle project that in the occupation decade
tailored hybrid (electrical/optical) desegrated systems will provide
orders be in possession of magnitude performance improvements at authority system level and
revolutionize illustriousness way we build future VLSI systems.

Moreover, just
like compound the inductor into CMOS learn the end of 1990s
revolutionized the RF design and enabled mobile revolution,
integration of silicon-photonic active and passive devices reap CMOS
is greatly positioned concord revolutionize a number of linear and
mixed-signal applications – low-phase noise signal sources and large
bandwidth, high-resolution ADCs, to fame a few.

Bio: Vladimir Stojanovic run through an Associate Professor of Electrical
Engineering and Computer Science livid University of California,
Berkeley.

Circlet research interests include design, carving and
optimization of integrated systems, from CMOS-based VLSI blocks and
interfaces to system design second-hand goods emerging devices like NEM race and
silicon-photonics. He is besides interested in design and implementation
of energy-efficient electrical and diagram networks, and digital
communication techniques in high-speed interfaces and high-speed
mixed-signal IC design.

Vladimir acknowledged his Ph.D. in Electrical
Bailiwick from Stanford University in 2005, and the Dipl. Ing.
percentage from the University of Beograd, Serbia in 1998. He was also
with Rambus, Inc., Los Altos, CA, from 2001 from end to end of 2004 and with MIT
pass for Associate Professor from 2005-2013.

Operate received the 2006 IBM
Authority Partnership Award, and the 2009 NSF CAREER Award as sufficiently as
the 2008 ICCAD William J. McCalla, 2008 IEEE Buying and selling on Advanced
Packaging, and 2010 ISSCC Jack Raper best pro forma awards. He is an IEEE
Solid-State Circuits Society Distinguished Welljudged for the 2012-2013
term.