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- Valuable professional development creating skills that lead to job offers
- Reinforce and expand knowledge of VHDL and FPGA-specific design methodology.
- Develop skills for implementing high-speed, robust, reliable circuits on FPGAs.
- Gain understanding of real-world industry applications of FPGAs and SoCs.
- Understanding of digital logic design principles and methodology (e.g., Boolean algebra, finite state machines, data path elements)
- Familiarity with VHDL programming (or Verilog)
- Experience with FPGA development boards and tools (e.g., Vivado)
- Review of Digital Logic Design and FPGA Programming
- Boolean algebra, combinational and sequential circuits, finite state machines
- FPGA, SoC, and SoM architectures and toolchains
- VHDL programming techniques and design methodology
- Writing effective testbenches, RTL simulation in Vivado
- Introduction to ML algorithms and FPGA-specific optimization strategies
- High-throughput Communication on FPGAs
- Pipelining and parallelism for high-speed designs
- Synchronous vs. asynchronous communication protocols (SPI, SCI, UART, LVDS, I2C, PCIe, USB, Ethernet, etc.)
- Compare hardware/software/firmware implementations of ML: throughput speeds, resource utilization, and latency
- Methods used to achieve ultra-high sampling rates (>> system clock, GS/s range)
- Utilizing advanced IP cores and IO buffers for high-speed interfaces and data storage
- Advanced FPGA Techniques for High-speed Systems
- Clock domain crossing verification and synchronization techniques
- Resource utilization, critical path identification, and optimization strategies
- Timing constraints, static and dynamic timing analysis
- Signal integrity analysis
- High-Speed Design Verification and Testing
- Simulation-based verification techniques, advanced debugging, and waveform analysis
- Post-layout verification and back-annotation
- Test and validation strategies for high-speed designs
- Utilizing debug cores for real-time logic analysis
- Machine Learning on FPGAs
- Algorithm validation and verification in software
- Compare capabilities and implementation strategies of ML on FPGAs, SoCs, and SoMs
- Optimization strategies for efficient ML implementation in hardware (e.g., convolution)
- Digital Systems in Industry
- Techniques and best practices for scalable, reusable, reliable, and robust FPGA design
- Board-level considerations for high-speed signals: PCB layout guidelines, power distribution and decoupling, transmission line theory and termination techniques
- Emerging trends for FPGA-based digital signal processing (DSP) applications
Consultants’ Network
Free Dinner starts at 6:00 PM
Meeting starts at 7:00 PM – On-site and Zoom
Members in good standing are encouraged to attend. If you are unable to attend, then we will also be on Zoom.
Your registration confirmation email contains the Zoom details.
As a group of skilled consultants associated with IEEE Boston Section, CNET offers high value professional services for a diverse audience.
For CNET members:
- Professional interactions with peers in a supporting environment.
- General information from insiders about the condition of industry.
- Practical information exchanges about consulting practice.
- Communication improvement across multiple specialties.
- Participation in info-professional events on themes of interest.
- Opportunity to give presentations and hone speaking effectiveness.
- Credibility and visibility within the engineering and technology development community as an IEEE associated consultant.
For engineers interested in becoming consultants:
- Basic information on consulting practice requirements.
- Participation in events and idea exchanges with industry peers.
- Access to established consultants in the area for mentoring.
- Opportunities for improving professional communications skills.
For enquirers on CNET services:
- Convenient access to local consultants with multi-disciplinary expertise.
- Opportunities to enter into consulting agreements without agency fees.
- Direct, easy connection with consultants over the CNET web page.
- Dealing with consultants with multi-year experience validated by IEEE.
Join us!
Microwave Theory & Technique Society
After work social networking event for Boston Young Professional Microwave Theory and Technology Society members or those who work in the field and are looking to make more professional connections. We encourage bringing business cards for exchanging contact information!
Organizers will provide some pizza and appetizers based on expected head count.
Event information can be found at: https://events.vtools.ieee.org/m/429911
Our website link: https://r1.ieee.org/mtts-boston/2024/08/07/young-professionals-networking-social-17-september-2024/
Microwave Theory & Techniques Society
After work social networking event for Boston Young Professional Microwave Theory and Technology Society members or those who work in the field and are looking to make more professional connections. We encourage bringing business cards for exchanging contact information!
Organizers will provide some pizza and appetizers based on expected head count.
Event information and registration can be found at: https://events.vtools.ieee.org/m/429911
Our website link: https://r1.ieee.org/mtts-boston/2024/08/07/young-professionals-networking-social-17-september-2024/
COURSE DESCRIPTION
Course Kick-off / Orientation 6:00PM – 6:30PM EDT; Thursday, August 29, 2024
First Video Release, Thursday, August 29, 2024. Additional videos released weekly in advance of that week’s live session!
Live Workshops: 6:00PM – 7:30PM EDT; Thursdays, September 5, 12, 19, 26
Registration is open through the last live workshop date. Live workshops are recorded for later use.
Course information will be distributed by Wednesday August 28, and then a brief live Orientation meeting will be held on Thursday August 29 ahead of the weekly live workshops that follow.
Attendees will have access to the recorded session and exercises for two months (until November 26, 2024) after the last live session ends!
IEEE Member Early Rate (by August 28): $190.00
IEEE Member Rate (after August 28): $285.00
IEEE Non-Member Early Rate (by August 28): $210.00
IEEE Non-Member Rate (after August 28): $315.00
Decision to run/cancel course: Thursday, August 22, 2024
Speaker: Dan Boschen
This is a hands-on course combining pre-recorded lectures with live Q&A and workshop sessions in the popular and powerful open-source Python programming language.
Pre-Recorded Videos: The course format includes pre-recorded video lectures that students can watch on their own schedule, and an unlimited number of times, prior to live Q&A workshop sessions on Zoom with the instructor. The videos will also be available to the students for viewing for up to two months after the conclusion of the course.
Overview: Dan provides simple, straight-forward navigation through the multiple configurations and options, providing a best-practices approach for quickly getting up to speed using Python for modelling and analysis for applications in signal processing and digital design verification. Students will be using the Anaconda distribution, which combines Python with the most popular data science applications, and Jupyter Notebooks for a rich, interactive experience.
The course begins with basic Python data structures and constructs, including key “Pythonic” concepts, followed by an overview and use of popular packages for scientific computing enabling rapid prototyping for system design.
During the course students will create example designs including a sigma delta converter and direct digital synthesizer both in floating point and fixed point. This will include considerations for cycle and bit accurate models useful for digital design verification (FPGA/ASIC), while bringing forward the signal processing tools for frequency and time domain analysis.
Jupyter Notebooks: This course makes extensive use of Jupyter Notebooks which combines running Python code with interactive plots and graphics for a rich user experience. Jupyter Notebooks is an open-source web-based application (that can be run locally) that allows users to create and share visually appealing documents containing code, graphics, visualizations and interactive plots. Students will be able to interact with the notebook contents and use “take-it-with-you” results for future applications in signal processing.
Target Audience: This course is targeted toward users with little to no prior experience in Python, however familiarity with other modern programming languages and an exposure to object-oriented constructs is very helpful. Students should be comfortable with basic signal processing concepts in the frequency and time domain. Familiarity with Matlab or Octave is not required, but the equivalent operations in Python using the NumPy package will be provided for those students that do currently use Matlab and/or Octave for signal processing applications.
Benefits of Attending / Goals of Course: Attendees will gain an overall appreciation of using Python and quickly get up to speed in best practice use of Python.
All set-up information for the installation of all tools will be provided before the start of class.
Topics / Schedule:
Pre-recorded lectures (3 hours each) will be distributed Friday prior to all Workshop dates. Workshop/ Q&A Sessions are 6pm-7:30pm on the dates listed below:
Kick-off / Orientation: August 29, 2024
Thursday, September 5, 2024
Topic 1: Intro to Jupyter Notebooks, the Spyder IDE and the course design examples. Core Python constructs.
Thursday, September 12 ,2024
Topic 2: Core Python constructs; iterators, functions, reading writing data files.
Thursday, September 19, 2024
Topic 3: Signal processing simulation with popular packages including NumPy, SciPy, and Matplotlib.
Thursday, September 26, 2024
Topic 4: Bit/cycle accurate modelling and analysis using the design examples and simulation packages
Speaker’s Bio:
Dan Boschen has a MS in Communications and Signal Processing from Northeastern University, with over 25 years of experience in system and hardware design for radio transceivers and modems. He has held various positions at Signal Technologies, MITRE, Airvana and Hittite Microwave designing and developing transceiver hardware from baseband to antenna for wireless communications systems and has taught courses on DSP to international audiences for over 15 years. Dan is a contributor to Signal Processing Stack Exchange https://dsp.stackexchange.com/, and is currently at Microchip (formerly Microsemi and Symmetricom) leading design efforts for advanced frequency and time solutions.
For more background information, please view Dan’s Linked-In page.
Registration is open through the last live workshop date. Live workshops are recorded for later use.
IEEE Boston Section recognized for Excellence in Membership Recruitment Performance
IEEE Boston Section was founded Feb 13, 1903, and serves more than 8,500 members of the IEEE. There are 29 chapters and affinity groups covering topics of interest from Aerospace & Electronic Systems, to Entrepreneur Network to Women in Engineering to Young Professionals. The chapters and affinity groups organize more than 100 meetings a year. In addition to the IEEE organization activities, the Boston Section organizes and sponsors up to seven conferences in any given year, as well as more than 45 short courses. The Boston Section publishes a bi-weekly newsletter and, currently, a monthly Digital Reflector newspaper included in IEEE membership.
The IEEE Boston Section also offers social programs such as the section annual meeting, Milestone events, and other non-technical professional activities to round out the local events. The Section also hosts one of the largest and longest running entrepreneurial support groups in IEEE.
More than 150 volunteers help create and coordinate events throughout the year.