Pittsburgh Section Bulletin - IEEE · IEEE Pittsburgh Section Bulletin April 2016 Volume 65 No. 4...
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IEEE Pittsburgh Section Bulletin April 2016 Volume 65 No. 4 Page 1 of 11
Pittsburgh
Section
Bulletin April 2016 Volume 65, No. 4
Included in this issue:
Notes From the Chair .............................................................................................................................. 2
Shifting the Focus to Spintronic Domain Wall Memories............................................................... 3
On-Chip Embedded Cooling of Logic and Power Components ......................................................... 4
IEEE Member Insurance Solutions ...................................................................................................... 5
Chasing the Sun......................................................................................................................................... 7
Modern Hybrid Electric Cars: A Chevrolet Volt Owner’s Experience ......................................... 8
Summer School on Signal Processing and Machine Learning for Big Data .................................. 9
IEEE Pittsburgh Section Annual History and Awards Dinner ..................................................... 10
Editor: Philip Cox, [email protected]; Contributors: Louis Hart, Paige Kassalen, Jim Lagree, Kal Sen,
Ervin Sejdic, and Matthew Valenti
All announcements for publication in a particular month’s bulletin are due to the Editor by the 20th of the
previous month. The accuracy of the published material is not guaranteed. If there is any error, please bring it to
the Editor’s attention. The Section’s web site, https://webinabox.vtools.ieee.org/wibp_home/index/r20037, has
recent issues of the bulletin and lots of other useful information
IEEE Pittsburgh Section Bulletin April 2016 Volume 65 No. 4 Page 2 of 11
Notes From the Chair
My membership benefit this month is the job search
material. The IEEE provides the JobSite where you can
search for jobs, set up an account, post resumes and
cover letters. Another feature is the IEEE Resume-Lab.
The ResumeLab is an online service that allows IEEE
members to develop a resume or CV using a wide array
of resume templates. Members can also perform mock
interviews using over 900 potential interview questions
or develop letters, portfolios, and skills assessments to
use during the interview process. Best of all, the
information developed on IEEE ResumeLab is easily
shared with potential employers, mentors, or colleagues
via a personalized website. The IEEE also provides the
Job Site. Another free service is the IEEE Collabratec.
This is an online community of technology
professionals that can network, collaborate and create.
The IEEE-USA also has a Salary Service for salary and
benefit data.
Make sure you save the date for the Pittsburgh Awards
and History dinner in May. We will be honoring
several of new fellow and 50 year members, engineer of
the year and other awards for the year.
Thanks,
Jim Lagree
Pittsburgh Section Chair 2016
Section
Chair - Jim Lagree, [email protected]
Vice Chair -- Dr. Drew Lowery, [email protected]
Treasurer – Dan Wilson, [email protected] Asst. Treasurer - Jiahui Zhang
Secretary - Navid Binesh, [email protected]
Immediate Past Chair – Dr. Jim Beck, [email protected]
Awards Chair – Dr. Kal Sen, [email protected]
Webmaster – Gerry Kumnik, [email protected]
UpperMon Subsection
Chair: Dr. Gianfranco Doretto, [email protected]
Chapters
Communications Society – Chair: Dr. Balaji Palanisamy, [email protected]; Sec: Phil Cox, [email protected]
Computer Society – Chair: Dr. Ralph Sprang, [email protected]
Components, Packaging, and Manufacturing Technology/Electron Devices Societies – Chair: Dr. Louis Hart, [email protected]
Engineering In Medicine & Biology Society Chair: Dr. Wei Wang, [email protected]
Electromagnetic Compatibility Society Chair: Michael J. Oliver [email protected] (814) 763-3211
Power Electronics Society – Chair: Dr. Brandon Grainger [email protected]
Power & Energy & Industry Applications Societies Chair: Dave Vaglia, [email protected]; Past: Mey Sen, [email protected] 412-373-0117
Magnetics Society – Chair: Vincent Sokalsky, [email protected]
Nanotechnology Society - Chair: Dr. MinheeYun [email protected]
Robotics Society – Chair: Gene Kern, [email protected]
Signal Processing Society – Chair: Dr. Deniz Gencaga [email protected]
Society on Social Implications of Technology Chair: Joe Kalasky, P.E., [email protected] 724-244-1609
Council of Electronic Design Automation Chair: Dr. Xin Li, [email protected]
Affinity Groups
Young Professionals (formerly GOLD) – Chair: Matthew Rehder [email protected]
Women In Engineering –Co Chairs: Paige Kassalen, [email protected] and Mey Sen, [email protected]
Committees
Professional/Career Activities (PACE) Chair: Joe Cioletti, P.E. [email protected]
Student Activities – Dr. Irvin Jones, [email protected]; student reps: Chair: Blaine Headley [email protected], Vice-chair: Brandon Contino [email protected]
Membership Development – Steve Mozelewski, [email protected]
Publicity – Chair: Thomas Dionise, P.E. [email protected] (724) 779-5864
IEEE Pittsburgh Section Bulletin April 2016 Volume 65 No. 4 Page 3 of 11
Shifting the Focus to Spintronic Domain Wall Memories
Speaker: Alex Jones, Ph.D.
Date: Monday, Apr. 11, 2016
Time: 5:00 PM – 6:00 PM
Place: G102 Engineering Sciences Building (ESB)
West Virginia University, Morgantown, WV
RSVP: Matthew Valenti, [email protected]
Organizer: Upper Mon Subsection
Abstract: Domain-wall memory (DWM), also known as “Racetrack Memory” as coined by Stuart
Parkin while at IBM, is a spintronic storage technology akin to a next generation STT-MRAM. DWM
stores multiple bits of data in a magnetic nanowire, which can be shifted to an access point for reading
and writing. Thus, it can address some of the density and dynamic energy concerns from writing of
STT-MRAM, but at the cost of non-uniform access speeds and power and performance overheads from
shifting. DWM provides an exciting new paradigm of storage that can be used effectively throughout
the memory system from register files to secondary storage, and even outside of the memory hierarchy
when the appropriate architectural configurations are employed. However, this type of storage requires
computer architects to think differently in order to most effectively leverage DWM in the system. This
talk will cover recent architectural applications of leveraging STT-MRAM and DWM in the context of
chip-multiprocessors developed by the Advanced Computer Systems Laboratory at the University of
Pittsburgh.
Speaker Bio: Alex K. Jones is the Director of Computer Engineering and an Associate Professor of
Electrical and Computer Engineering and Computer Science at the University of Pittsburgh. He is
a Walter P. Murphy Fellow of Northwestern University, where he received his M.S. and Ph.D degrees in
Electrical and Computer Engineering. Dr. Jones’ research interests include compilation techniques for
configurable systems and architectures, behavioral and low-power synthesis, parallel architectures and
networks, radio frequency identification (RFID) and sensor networks, sustainable computing, and
embedded computing for medical instruments. He is the author of more than 100 publications in these
areas. His research is funded by the U.S. National Science Foundation, DARPA, CCC, and industry.
Dr. Jones’ contributions have received several awards including the 2010 ACM/SIGDA Distinguished
Service Award and recognition of a top 25 paper from the first 20 years of FCCM. Recently, Dr. Jones
led an effort in visioning for the electronic design automation community funded by the Computing
Community Consortium (CCC). Dr. Jones is also actively involved in efforts to improve the scientific
method for experiments in computers science and engineering, to develop methods reproducible
research, and a centralized hub for computer architecture simulators, emulators, benchmarks and
experiments.
IEEE Pittsburgh Section Bulletin April 2016 Volume 65 No. 4 Page 4 of 11
On-Chip Embedded Cooling of Logic and Power Components
Speaker: Avram Bar-Cohen, PhD, IEEE/CPMT Distinguished Lecturer, Distinguished University
Professor, University of Maryland, College Park, MD
Date: 12 April 2016
Time: Dinner and Social – 630 PM; Lecture – 7 PM
Location: Compunetics, 700 Seco Road, Monroeville, PA
Contact: Louis Hart, [email protected], 412-858-1232 on or before 6 April to reserve a seat.
Organizer: Components, Packaging, and Manufacturing Technology Society
Abstract: Thermal packaging technology has been a key enabler in the development of today’s
microelectronic systems, including smart phones, tablet computers, back-room data-crunching
supercomputers, and the navigation systems that have come to define our lives in the 21st Century. Much
of the benefit that we derive from miniaturization, higher performance, lower cost and greater reliability
of these quintessential 21st Century “widgets,” can be traced to improvements in thermal technology,
thermal modeling, and the integration of thermal management principles and techniques into electronic
product development.
A review of thermal packaging over the first 70 years of the Information Age will reveal a relentless
“inward migration” of cooling technology from room ventilation and air-conditioning, to cabinet
cooling, to component cooling with heat sinks and cold plates, and to today’s efforts to address on-chip
hot spots and near-junction thermal transport. Attention will then be devoted to current thermal
management requirements, driven by nano-electronics, which confront packaging engineers with the
simultaneous “triple threat” of high-power, “hotspots,” and 3D integration in applications as diverse as
high performance computing, power electronics, and RF systems. The lecture will close with a review
of 3rd
-generation thermal management technologies relying on intra- and interchip microfluidic cooling,
use of diamond substrates, and on-chip thermoelectric coolers to implement the emerging “embedded
cooling” paradigm.
Speaker: Dr. Avram Bar-Cohen is an internationally recognized leader
in thermal science and technology, an Honorary member of ASME, and
Life Fellow of IEEE, as well as Distinguished University Professor in
the Department of Mechanical Engineering at the University of
Maryland. His publications, lectures, short courses, and research, as well
as his US government and professional service in ASME and IEEE,
have helped to create the scientific foundation for the thermal
management of electronic components and systems. His current research
focuses on embedded cooling, including on-chip thermoelectric and two-
phase microchannel coolers for high heat flux electronic components,
thermal control of solid-state lighting and directed energy systems, and
polymer-fiber composite heat exchangers for seawater applications.
Bar-Cohen serves on the Board of Governors of the IEEE CPMT
Society and has represented the Society as a Distinguished Lecturer for
more than 15 years. From 1998 to 2001 he directed the University of Minnesota Center for the
IEEE Pittsburgh Section Bulletin April 2016 Volume 65 No. 4 Page 5 of 11
Development of Technological Leadership and held the Sweatt Chair in Technological Leadership.
From 2001 to 2010 he served as the Chair of Mechanical Engineering at Maryland.
Bar-Cohen has co-authored Dielectric Liquid Cooling of Immersed Components (WSPC, 2013), Design
and Analysis of Heat Sinks (Wiley, 1995), and Thermal Analysis and Control of Electronic Equipment
(McGraw-Hill, 1983). He holds 8 US and 3 Japanese patents.
DIRECTIONS TO COMPUNETICS
Directions: From Pittsburgh and west on I-376, take the Plum exit and follow PA 48 north
approximately 1 km to the Monroeville Business Park. Turn right into the Park. Immediately (after
about 30 meters), turn left and go into the parking lot behind building 700. Compunetics’ conspicuous
sign and entrance is on the right.
From east or the PA turnpike, take US 22 west approximately 100 meters past the turnpike interchange
and turn right onto PA 48 north. Proceed on route 48 as above, for a little more than 1 km to the
Business Park.
IEEE Member Insurance Solutions
Protecting You, Your Business, Your Future
Speaker: Graham Fuller and Jeff Ambrose, Mercer Consumer
Date: Wednesday, April 20, 2016
Time: Refreshments - 6:30 PM; Presentation - 7:00 PM
Place: Westinghouse Energy Center
4350 Northern Pike
Monroeville, Pennsylvania 15146
RSVP: Required at https://meetings.vtools.ieee.org/m/38298 by April 17. If you are an IEEE
member, you must enter your membership number. Spouses are encouraged to attend.
Organizer: Power Electronics Society (PELS) Chapter, Joint PES/IAS Chapter and Women in
Engineering (WIE)
Abstract: As active, professional engineers in today’s challenging economic times, nothing is more
important than making sound decisions about yourself and your business that will position you for long
term success and stability.
Part of that success depends on how you protect your business and yourself from errors and omissions
that may result from the work you perform. Another part of that success is protecting your greatest asset,
yourself, from accidents and sickness that could prevent you from running your business and earning a
living.
Please join Graham Fuller, Principal and Jeff Ambrose, Professional Liability Product Manager, Mercer
Consumer as they show you how to analyze your insurance portfolio from a life and health insurance
perspective as well as a professional liability angle.
IEEE Pittsburgh Section Bulletin April 2016 Volume 65 No. 4 Page 6 of 11
Topics will include: discussing the value of term life insurance and disability income insurance as well
as the importance of having the right type of professional liability insurance in place for the work you
do. Additionally, they will also provide you with valuable information on those things you need to
consider from a liability perspective when you enter into a work contract.
All this as well as a discussion about different insurance solutions that Mercer and the IEEE Member
Group Insurance and Alliance Program offers members like yourself to help protect you, your family
and your business.
Speakers:
Graham Fuller Graham Fuller, Principal, is the Senior Relationship Manager for the Mercer Consumer Association
Division Professional Occupations Vertical structure. Graham’s responsibilities include leading a team
of client executives that oversee the day-to-day Mercer operations which affect their assigned client
portfolio. He has 20 years of Insurance Program Management experience with Mercer. He has expertise
in Life/Health Insurance products, as well as Professional Liability and Property/Casualty Insurance
products.
Graham has a B.A. degree in political science from The University of Iowa in Iowa City, Iowa. He has
worked in his current capacity for 12 years and specializes in association insurance program
management. Mr. Fuller holds a Life and Health insurance license in a majority of the United States.
Jeff Ambrose Jeff Ambrose, Program Manager, leads the Professional Liability Engineers Program for Mercer
Consumer. Jeff’s responsibilities include managing the Professional Liability program for IEEE,
enhancing carriers and coverage options and supporting the customer experience. He has over 10 years
of experience creating and managing Architects & Engineers Professional Liability Programs.
Jeff has a B.A. degree in marketing from DePaul University and holds the Construction Risk Insurance
Specialist (CRIS) designation.
DIRECTIONS TO WESTINGHOUSE ENERGY CENTER (MONROEVILLE)
From Pittsburgh take Interstate 376 East (Parkway East). Take Exit 84A to Monroeville. Cross Business
Rt 22 at the traffic light and proceed on Rt 48 South (Moss Side Blvd) approx ½ mile (two traffic lights).
The 2nd
traffic light is at a 4-way intersection with a Marathon station on the right. Turn left onto
Northern Pike. Proceed approx 0.2 miles and turn right at the 1st traffic light onto Westinghouse Dr.
Travel 0.7 miles (past the guard stand) to the 3 flags where the building’s main entrance is located.
Parking in the evening will be plentiful. Use the main entrance and check with the security guards
inside. You will be directed to the proper room for your meeting.
From the PA Turnpike, take Exit 57 (Monroeville). After the toll plaza, get in the left lane to get on
Business Rt 22 West. At the first light, turn left onto Rt 48 South (Moss Side Blvd) and follow the above
directions.
IEEE Pittsburgh Section Bulletin April 2016 Volume 65 No. 4 Page 7 of 11
Chasing the Sun
3/17/16
Hello Everyone,
The past month has been packed! We
have successfully completed 4 training
flights and everything is looking positive
for our Hawaii departure date of April
15th
.
The ground crew members have rotated
taxiing positions each training flight and
I now am trained in all 4 positions: Tail,
Main Landing Gear, and right and left
Handling masts.
Tail – When I am working with the tail,
there are 2 options for transport. The
first is a contraption that allows the tail to
move freely. My job is to then walk with
the tail and hold onto a rod to guide the plane when taxiing. The second option is a tail fork. The tail
fork is similar to a steering wheel for the tail. It allows me to control the movements of the plane with
very little force because of the tool design and light weight of the plane. The plane is very fragile, so I
need to guide the plane over any bumps in the ground and help with the turns.
Main Landing Gear – This is the front wheel on the plane. This is the most physically demanding
position because I am pulling or pushing the airplane a fairly long distance as we taxi (picture shown
above). The first step of taxiing is to engage our swivel mechanism. This mechanism allows us to pull
the plane out sideways from the hangar and then steer as we taxi onto the runway. Before takeoff, we
disengage the swivel mechanism to only allow the wheel to turn 30 degrees during landing. This
position is more high risk because there is a cable that runs from the wheel to the cockpit, and the
system is very fragile. To extend and retract the wheel, the pilot has a crank inside the cockpit, so if the
cord is not aligned because it was bumped during taxi, the wheel will not be able to retract when flying
or the pilot will have to cut the cable as an emergency procedure to extend the wheel when landing.
Handling Masts – The plane’s wing span is 72 meters and most of the plane’s weight comes from the
wings. Therefore, each side of the plane has a handling mast where ground crew members support the
plane. The biggest challenge of this job is communication. You need to be in sync with the ground
crew counterpart on the other handling mast to make sure the plane is balanced. During turns, the wind
can sometimes be so strong that it ends up lifting one wing so high that the ground crew ends up being
picked up by the plane. In this situation, the other side needs to push their wing up to bring us back on
the ground.
IEEE Pittsburgh Section Bulletin April 2016 Volume 65 No. 4 Page 8 of 11
When I am not helping the plane taxi, I am working in the hangar. Recently, we have been preparing for
the “tighDOWN system.” This system is how we affix the plane to the ground when the wind is too
strong for ground crew members to hold it when we have events. I have been working on the sensors
that measure the force applied to each wing. There are 4 rods with sensors that we want to have a
neutral force be applied. There were some interference with the signals, and I have been testing each
cable with a computer program and then working on fixing the connections!
Let’s see what next month brings!
Paige
To follow me: http://paigekassalen.tumblr.com/, Instagram/Twitter - @paigekassalen
Modern Hybrid Electric Cars: A Chevrolet Volt Owner’s Experience
Speaker: Joseph C. Engel, PhD
Date: May 10, 2016
Time: Social 6:30 PM, Program 7:00 PM
Place: Westinghouse Energy Center, 4350 Northern Pike, Monroeville, PA 15146
RSVP: Required at https://meetings.vtools.ieee.org/m/39054 by May 8, 2016. If you are an
IEEE member, you must enter your membership number. If you would like to receive PDH, please bring
a copy of this announcement for verification of your attendance and your membership identification
card. A non-Member who would like to receive PDH is required to pay $10 to “IEEE Pittsburgh
Section.”
Organizers: Power & Energy Society/Industrial Applications Society (PES/IAS), Power Electronics
Society (PELS)
Abstract: The first modern hybrid electric car, called Prius, was introduced by Toyota in Japan in 1997;
it was followed in the U.S. in 2000. Last year, over one million of these cars were sold domestically.
The Prius’ popularity is the result of the new driving experience it offers with excellent fuel economy.
The innovative design couples an electric motor with an internal combustion gasoline engine to a
common front-wheel drive and mechanical power train. The designation “hybrid” is derived from this
combination of motor and engine. The low speed torque of the electric motor provides the Prius with
acceptable acceleration while the engine is tuned for optimum fuel economy at cruising speeds. The
electric motor’s battery is charged during regenerative braking. The car was not “plug-in able”. A fuel
economy of about 40 mpg is achieved.
The Volt is a GM/Chevrolet hybrid, introduced in 2010. I purchased mine in 2012. The Volt’s design
followed a consumer survey that indicated that people drive less than 40 miles per day on an average.
So, if a car could drive 40 miles on its battery, the gasoline engine would only be needed for longer
trips. The Volt’s engine is coupled to a generator that feeds a large lithium-ion battery. An electric motor
powers the front wheels. The car’s battery can be recharged from an available external 208/240VAC
supply, as well as during regenerative braking. That’s my case; I’m averaging ~90 mpg. While running
on the engine, the Volt still gets 40 mpg since the battery is never depleted so low that it’s not available
to accelerate the car.
IEEE Pittsburgh Section Bulletin April 2016 Volume 65 No. 4 Page 9 of 11
For those who are not afraid of electricity, my Volt will be available for a test drive. I understand a Prius
will also be available.
Speaker: Joseph C. Engel received his BSEE and MSEE degrees (1960 and 1962)
from University of Cincinnati and Ph.D. EE (1969) University of Pittsburgh,
respectively. His work experience includes SemaConnect 2011-present, Eaton
(Cutler-Hammer) from 1993-2009, Westinghouse Electric Corporation (1963-
1993), Baldwin Piano Company (1960-1963) and Allis-Chalmers (1956-1963).
His awards include more than 100 Issued U.S. Patents, Finalist for the Design
News Magazine “Year 2001 Engineer of the Year Award” (2001), Member of
Eaton Society of Inventors (1994), Westinghouse Order of Merit (1993), George Westinghouse
Signature Award of Excellence (1990), George Westinghouse Innovation Award (1989), and Inventor of
the Year (1988, as recognized by the Patent Law Association of Pittsburgh). He has many technical
publications. He made a presentation, titled “Combination Arc Fault Circuit Interrupters (AFCIs): What
they will and will not do.” to the Power & Energy Society/Industrial Applications Society on February
6, 2014.
For directions to the Westinghouse Energy Center, Monroeville, see page 6.
Summer School on Signal Processing and Machine Learning for Big
Data
The IEEE Signal Processing Society presents the Summer School on Signal Processing and Machine
Learning for Big Data (http://www.engineering.pitt.edu/ieeesps/) to be held in Pittsburgh, PA, USA,
May 17 - 19, 2016.
Humans, machines and sensors collectively generate an enormous amount of data on a daily basis. The
fact that much of this data is now accessible provides an opportunity to explore, analyze and extract
previously unavailable and potentially highly useful information. In many cases, the volume and speed
of data generation makes traditional centralized data analysis infeasible. The lack of structure, and the
amount of noise and outliers emphasize the need for robust processing across heterogeneous data
domains. High dimensionality makes it challenging to visualize and interpret the data. Overall, Big Data
analysis presents many challenges and opportunities for current and future signal processing
professionals. This Summer School is intended to provide an introduction to the current efforts to
explore Big Data from a signal processing perspective. Topics will range from foundations for Big Data
analysis and processing (robust statistical methods, sparse representations, numerical linear algebra,
machine learning, convergence and complexity analysis) to Big Data applications (social networks,
behavior and language analysis, bioinformatics, smart grid, environmental monitoring, and others).
Dr. Ervin Sejdic, Ph.D., Assistant Professor, Department of Electrical and Computer Engineering,
Swanson School of Engineering, University of Pittsburgh
E-mail: [email protected]
Phone: 412-624-0508
Web: www.imedlab.org
IEEE Pittsburgh Section Bulletin April 2016 Volume 65 No. 4 Page 10 of 11
IEEE Pittsburgh Section Annual History and Awards Dinner
Date: Friday, May 20, 2016
Time: 5:30 PM: Arrival
6:00 PM: Dinner and Awards Presentations
7:00 PM: Keynote speech
Place: The University Club, University of Pittsburgh
123 University Place, Pittsburgh, PA 15260.
Phone: 412-648-8213
Cost: $25 per member; $40 member plus guest (Cash Bar is available)
RSVP: Required by May 6, 2016. Seating is limited to 40 people. Please send your check,
payable to “IEEE Pittsburgh Section,” to Mey Sen, 126 Pauline Dr., Monroeville, PA 15146. Please
provide the name of your guest, if any. For any question, please write to Mey at [email protected].
Organizer: IEEE Pittsburgh Section.
Pennsylvania and Pittsburgh connections to the history of roller coasters
Abstract: Pennsylvania has a rich connection to the emergence of the roller coaster as the king of the
thrill rides. We will look at the switchback railway as the model for the rollercoaster concept. Take a
look at how Pittsburgh’s own Kennywood Park is a museum piece for the preservation of classic ‘First
Golden Age’ coasters. Did you know that Kennywood also is home to a one-time record holder?
Pennsylvania is also home to the world’s oldest operating coaster. We will also review some of the
famous names in coaster design and their influence on contemporary thrill rides.
About the Speaker: Dave Markus is a former member of the American Coaster Enthusiasts (ACE). Mr.
Markus has made presentations on coaster history, art and science previously for our IEEE Section, as
well as the ASME, at the Monroeville Public Library, and has lectured on coaster design topics for
Carnegie-Mellon University’s Entertainment Engineering course offered by the Mechanical Engineering
Department. Mr. Markus is a recently retired Engineer from Westinghouse.
IEEE Pittsburgh Section Bulletin April 2016 Volume 65 No. 4 Page 11 of 11
2016 Calendar – Meetings of IEEE Pittsburgh Section Jan Feb Mar Apr May June July August Sept Oct Nov Dec
Executive
Committee
21
Panera
Bread Wilkins
18
Tech Shop
(Bakery Square)
17
Panera Bread
Cranberry
21
TBD
19
TBD
16
TBD
21
TBD
18
TBD
15
TBD
20
TBD
17
TBD
15
TBD
Section 20
Engineer’s
Week
1
Science Fair
20
History/
Awards Dinner
Communic
ations
Computer 29 Patent Law
EMBS
EMCS
Power
Electronics
27
Power
Converters
23
Inverters
10
Legacy, smart
grids
20
Insurance
10
Hybrid Cars
PES/IAS 16 Nuclear
10 Legacy, smart
grids
20 Insurance
10 Hybrid Cars
Magnetics
Robotics 29
Patent Law
Sig.
Processing
17-19
Summer
School
CPMT/ED 12 Embedded
cooling
Social Impl
Technology
Upper Mon 25
Preparing Workforce
1
Text Class.
9
Smart Manufacture
11
Racetrack memory
Women in
Eng’ing
20
Insurance
Life Mem.
Young Pros
PACE
Student Act