VSD - Making the Raven chip: How to design a RISC-V SoC
What you'll learn
- Students will be able to build and configure their own SoC (System-On Chip)
- Students will be able to create their own defition of GPIO
- Understand decision making process, analog peripheral (ADC, DAC), digital peripheral (UART, flash controller), memory mapping, pad-frame, level-shifters, GPIO
- Finally, plan your SoC
- A Linkedin login ID
- Knowledge on RISC-V is nice to have, but not must to have
- Digital design concepts and a bit of verilog syntax is nice to have
Building a chip is like building a city...
This was the mantra with which we started our company in 2011. Now that we have covered major components of chip designing through our online courses, I think this is the right time to move from "chip designing" to "chip planning"
Chip Planning involves lot of decision making like, analog peripheral (ADC, DAC, POR, etc.), digital peripheral (UART, flash controller), memory mapping, top level connections like pad-frame, level-shifters, GPIO and many more.
Do you want to know what it is like to build a city? Did you know there is no standard definition for GPIOs? Thats the whole point of designing an SOC. Figuring out what things you are going to control outside of the CPU and memory mapping them.
If you look at any microcontroller e.g. PIC microcontroller, the only way to know how you access their ADC or their UART is to go look at their documentation and find out wheres the memory map address for this
Do you want to know how to build and configure your own System-on-Chip (SoC)? Do you want to write your own data sheet?
I welcome you to my webinar which was conducted on Mar 10, 2018. Enroll with myself, Tim Edwards and Mohamed Kassem, and rise above, by being a Core SoC designer and build your own datasheet.
This is the perfect webinar for to grow and stay ahead of curve in Semiconductor and Chip design. Stay tuned and happy learning....
All the best, and I will see you in webinar..
Who this course is for:
- Anyone who wants to learn SoC planning
- Anyone who wants to learn chip design from specifications to Layout
- Anyone curious to know, what happens before Synthesis, Physical design and STA
Tips on order in which you need to learn VLSI and become a CHAMPION:
If I would had been you, I would had started with Physical Design and Physical design webinar course where I understand the entire flow first, then would have moved to CTS-1 and CTS-2 to look into details of how the clock is been built.
Then, as you all know how crosstalk impacts functioning at lower nodes, I would gone for Signal Integrity course to understand impacts of scaling and fix them. Once I do that, I would want to know how to analyze performance of my design and I would have gone for STA-1, STA-2 and Timing ECO webinar courses, respectively
Once you STA, there’s an internal curiosity which rises, and wants us to understand, what goes inside timing analysis at transistor level. To full-fill that, I would had taken Circuit design and SPICE simulations Part 1 and Part 2 courses.
And finally, to understand pre-placed cells, IP’s and STA in even more detail, I would have taken custom layout course and Library Characterization course
All of above needs to be implemented using a CAD tool and needs to be done faster, for which I would have written TCL or perl scripts. So for that, I would start to learn TCL-Part1 and TCL-Part2 courses, at very beginning or in middle
Finally, if I want to learn RTL and synthesis, from specifications to layout, RISC-V ISA course will teach the best way to define specs for a complex system like microprocessor
Connect with me for more guidance !!
Hope you enjoy the session best of luck for future
Kunal Ghosh is the Director and co-founder of VLSI System Design (VSD) Corp. Pvt. Ltd. Prior to launching VSD in 2017, Kunal held several technical leadership positions at Qualcomm's Test-chip business unit. He joined Qualcomm in 2010. He led the Physical design and STA flow development of 28nm, 16nm test-chips. At 2013, he joined Cadence as Lead Sales Application engineer for Tempus STA tool. Kunal holds a Masters degree in Electrical Engineering from Indian Institute of Technology (IIT), Bombay, India and specialized in VLSI Design & Nanotechnology.
Hands on with Technology @
1) MSM (mobile station mode chips) - MSM chips are used for CDMA modulation/demodulation. It consists of DSP’s and microprocessors for running applications such as web-browsing, video conferencing, multimedia services, etc.
2) Memory test chips - Memory test chips are used to validate functionality of 28nm custom/compiler memory as well as characterize their timing, power and yield.
3) DDR-PHY test chips - DDR-PHY test chips are basically tested for high speed data transfer
4) Timing and physical design Flow development for 130nm MOSFET technology node till 16nm FinFET technology node.
5) “IR aware STA” and “Low power STA”
6) Analyzed STA engine behavior for design size up to 850 million instance count ACADEMIC
1) Research Assistant to Prof. Richard Pinto and Prof. Anil Kottantharayil on “Sub-100nm optimization using Electron Beam Lithography”, which intended to optimize RAITH-150TWO Electron Beam Lithography tool and the process conditions to attain minimum resolution, use the mix-and-match capabilities of the tool for sub-100nm MOSFET fabrication and generate mask plates for feature sizes above 500nm.
2) Research Assistant to with Prof. Madhav Desai, to characterize RTL, generated from C-to-RTL AHIR compiler, in terms of power, performance and area. This was done by passing RTL, generated from AHIR compiler, through standard ASIC tool chain like synthesis and place & route. The resulting netlist out of PNR was characterized using standard software
1) “A C-to-RTL Flow as an Energy Efficient Alternative to Embedded Processors in Digital Systems” submitted in the conference “13th Euromicro Conference on Digital System Design, Architectures, Methods and Tools, DSD 2010, 1-3 September 2010, Lille, France”
2) Concurrent + Distributed MMMC STA for 'N' views
3) Signoff Timing and Leakage Optimization On 18M Instance Count Design With 8000 Clocks and Replicated Modules Using Master Clone Methodology With EDI Cockpit
4) Placement-aware ECO Methodology - No Slacking on Slack
Tim Edwards has been designing analog VLSI circuits and systems and developing open-source EDA tools for many years, from the Space Department at the Johns Hopkins Applied Physics Lab (1999-2003) to the startup company MultiGiG (bought by Analog Devices) (2004-2015), to his current job at efabless dot com (2016-present). He operates the website opencircuitdesign dot com.