There are two trade shows every year that I love. Computex in June is great, because the scale of the industry it covers, and Taipei is a wonderful location. Hot Chips in August is the other show, which is amazing for the level of depth it provides on the latest technology, as well as upcoming releases. This year the list of presentations for Hot Chips is almost overwhelming, and we’re looking forward to attending.

Hot Chips is now in its 31st version, and is the site of a wide range of technical disclosures on the latest chip logic innovations. Almost all the major chip vendors and IP licensees involved in semiconductor logic designs take part: Intel, AMD, NVIDIA, Arm, Xilinx, and IBM are on the latest list, and developers of large accelerators like Fujitsu and NEC last year. Even the foundry businesses take part, as well as some of the big cloud providers: Google last year showed its security chips, that no-one else will ever see. There are notable absences from the likes of Apple, who despite being on the Committee, last presented at the conference in 1994.

We’ve come to expect Hot Chips to be the place for microarchitecture overviews as well as a wider ecosystem examination over the finer points of hardware that will hit a large number of us behind the scenes. There have also been portions of the conference dedicated to new designs, open-source hardware, and security vulnerabilities. This year sees a large and wide range of impressive headlining talks planned.

Hot Chips 31 will run on 18-20th of August 2019, and be held at Stanford University. The first day, Sunday 18th, is typically a tutorial day. The detailed talks start on the 19th.

Hot Chips 31 (2019) Time Table
Day 1
08:15 Registration
08:45 Opening Remarks
09:00 General Purpose Compute AMD   Zen 2 Matisse
Arm   A Next-Gen Cloud-to-Edge Infrastructure SoC Using the Arm Neoverse N1 CPU and System Products Neoverse N1
IBM   IBM's Next Generation POWER Processor POWER9 with IO
10:30 Break
11:00 Memory Upmem   True Processing In Memory with DRAM Accelerator  
Princeton   A Programmable Embedded Microprocessor for Bit-Scalable In-Memory Computing  
Intel   Intel Optane Optane DCPMM
12:30 Lunch
13:45 Keynote AMD Dr. Lisa Su Delivering the Future of High-Performance Computing with System, Software and Silicon Co-Optimization  
14:45 Methodology and ML Systems Stanford   Creating an Agile Hardware Flow  
MLPerf   MLPerf: A Benchmark Suite for Machine Learning From an Academic-Industry Co-operative  
Facebook   Zion: Facebook Next-Generation Large-Memory Unified Training Platform  
16:15 Break
16:45 ML Training Huawei   A Scalable Unified Architecture for Neural Netowrk Computing from Nano-Level to High Performance Computing Huawei Da Vinci
Intel   Deep Learning Training at Scale - Spring Crest Deep Learning Accelerator Spring Crest
Cerabras   Wafer Scale Deep Learning  
Habana   Habana Labs Approach to Scaling AI Training  
18:45 Reception

The first day kicks off with a general purpose compute session with AMD, Arm, and IBM. AMD’s talk looks into its newest Zen 2 microarchitecture, which will be powering Matisse based ‘Ryzen 3000’ line of desktop processors as well as ‘Rome’ server processors. We’re not expecting much new from this presentation, given that it’s expected for AMD to have released the products to market before mid-August. Following AMD is Arm, with its Neoverse N1 platform we reported that was announced several weeks ago. IBM’s talk will be interesting, discussing the latest POWER processor, which is likely to be its optimized version of POWER9 focusing on IO support.

The second session is about memory, with the first two talks from Upmem and Princeton on in-memory compute. In-memory compute is seen as a fundamental frontier to performance: why shuttle data back and forth from memory when simple ALU operations can be done local to where the memory is stored – the goal of this is to save power and potentially speed up compute times, removing memory and DRAM accesses from being bottlenecks. The third talk in this session with be Intel and its new Optane DC Persistent Memory products, which we’re actually testing in-house right now.

Following lunch comes the first keynote presentation of the event, from AMD’s CEO Dr. Lisa Su. The talk will focus on how AMD is achieving its next generation of performance gains with Zen 2 and Navi, all built around 7nm. This presentation is going to be more of an overview rather than offer disclosures, though we might see a hint of a roadmap or two. A number of key AMD partners are expected to be in attendance, and scoring a keynote at Hot Chips along with keynotes at CES and Computex this year is underlining a headline year in AMD’s history.

The Methodology and ML (Machine Learning) Systems session features a talk from MLPerf, an organization building an industry standard machine learning benchmark suite. Until this point MLPerf has been in early revisions, and hopefully the additional on-side discussions will drive the suite forward. The Facebook talk about its training platform also looks interesting, not only because whenever Facebook does something it does it at scale.

The final session of the day is the Machine Learning Training session. Most of the time we end up writing about inference, but training still represents half of the revenue of the machine learning hardware industry (according to Intel at its Investor Day recently). Huawei is set to disclose information about its Da Vinci platform, while Intel will also disclose details about its Spring Crest family. A couple of IP related companies are also set to present here.

Hot Chips 31 (2019) Time Table
Day 2
07:30 Registration
08:30 Embedded and Auto Cypress   CYW89459: High Performance and Low Power Wi-Fi and BT5.1 Combo Chip  
Alibaba   Ouroboros: A WaveNet Inference Engine for TTS Applications on Embedded Devices  
Tesla   Compute and Redundancy Solution for Tesla's Full Self Driving Computer Tesla FSD
10:00 Break
10:30 ML Inference MIPS / Wave   The MIPS Triton AI Processong Platform Triton AI
NVIDIA   A 0.11 pJ/Op, 0.32-128 TOPS Scalable MCM-Based DNN Accelerator NVIDIA NPU
Xilinx   Xilinx Versal / AI Engine Versal
Intel   Spring Hill - Intel's Data Cetner Inference Chip Spring Hill
12:30 Lunch
13:45 Keynote TSMC Dr. Phillip Wong What Will The Next Node Offer Us?  
14:45 Interconnects HPE   A Gen-Z Chipset for Exascale Fabrics Gen-Z
Ayarlabs   TeraPHY: A Chiplet Technology for Low-Power, High Bandwidth Optical I/O TeraPHY
15:45 Break
16:15 Packaging and Security Intel   Hybrid Cores in a Three Dimensional Package Lakefield
Tsinghua   Jintide: A Hardware Security Enhanced Server CPU with Xeon Cores Jintide
17:15 Break
17:45 Graphics and AR NVIDIA   RTX ON: The NVIDIA Turing GPU Architecture Turing
AMD   7nm 'Navi' GPU Navi
Microsoft   The Silicon at the Heart of Hololens 2.0 Hololens

The second day keeps the juices flowing with a number of hot topics.

The first session, labelled Embedded and Auto, should be really interesting due to Tesla presenting information about its new Full-Self Driving chip (FSD), which would have been developed under Jim Keller during his time there. Tesla’s disclosures at its most recent event were detailed, so we hope that Tesla is exposing more information about the chip at Hot Chips. Alibaba also has a talk in this session, focused around its embedded inference engine.

The Machine Learning Inference session is another ML session of the event, further reinforcing the direction of compute towards ML over the next decade. During this session we should learn about NVIDIA’s dedicated multi-chip module inference design, showcasing technologies beyond its base GPU heritage. Xilinx will expose more about its Versal platform, and Intel will talk about Spring Hill, its data center inference chip that we already know contains Ice Lake cores and is being built in partnership with Facebook.

After lunch, TSMC has the keynote for the second day. Dr. Phillip Wong will discuss future technology nodes, which is apt given that both TSMC and Samsung have recently had events where the next generations of their foundry processes have been discussed.

Following the keynote is the Interconnects section. Hot Chips actually already has a sister conference called Hot Interconnects, which this year is a few days before Hot Chips, and as a result the interconnects section at Hot Chips only has two speakers. The more interesting talk from the outset is from HPE (Hewlett Packard Enterprise) who is presenting its new Gen-Z chipset and adaptor for large scale fabric implementations. Gen-Z is one of the future interconnects competing with the likes of CCIX, CXL, and others.

For packaging and security, this session looks super interesting. Intel is set to discuss its Lakefield processor which uses its new Foveros packaging technology – Intel has promised to deliver Lakefield in products by the end of the year, but we’re hoping that the Hot Chips talk will offer a deeper disclosure than what we’ve heard previously. The second talk of the session is from Tsinghua University in China, with its new Jintide CPU. If you’ve never heard of Jintide, I don’t blame you: me neither. But the title of the talk indicates that it is a custom CPU design using Intel’s Xeon cores, indicating a custom SoC platform built in partnership with Intel. Very interesting indeed!

Hot Chips usually ends in a bang, so at the end of a long day, we’re going to hear about the latest graphics and AR technologies. NVIDIA is going to talk Turing, which has been disclosed so we’re not expecting anything new there, but AMD is set to talk about Navi. We are expecting AMD to release Navi between now and Hot Chips, so there’s a chance here that there will not be nothing new from AMD either. But the final talk should yield plenty of new information: Microsoft is going to talk about the silicon inside its new Hololens 2.0 design. I’m looking forward to it!

The Hot Chips conference is set to run 18-20th of August. I’ll be there, hopefully live blogging as many sessions as possible.

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  • HStewart - Thursday, May 16, 2019 - link

    What I be most interested in Lakefield, I believe this is some ways will be Intel's little sleeping giant. ARM has be at Intel where it hurts the most, and this is suppose to be Intel's answer to it. Only thing I seen so far is this is Intel next class of mobile machines - and last time Intel did has led us to 2in1 revolution in mobile computers.

    I also interesting no discussion about Intel 10nm - but Lakefield is 10nm and 10nm Icelake stuff is suppose before in June supposedly.
    Reply
  • Aephe - Thursday, May 16, 2019 - link

    Didn't see that coming! Reply
  • smilingcrow - Thursday, May 16, 2019 - link

    I wonder if HStewart is paid in dollars, bitcoin, failed Intel 10nm dies or just broken dreams? Reply
  • Korguz - Thursday, May 16, 2019 - link

    smilingcrow who knows.. but ONLY HStewart would be more interested in what intel is presenting at hot chips, when most others.. are more interested in what AMD is presenting.... im almost expecting intel to just feed everyone more lies and promises they will break cause they cant deliver. Reply
  • sonny73n - Friday, May 17, 2019 - link

    If AMD can give me a $320 Ryzen 7-3700X 12c/24t that beats Intel $485 i9-9900K 8c/16t...
    Until then, all that stupid hype will just make AMD look worse if they can’t deliver.
    Reply
  • Alexvrb - Friday, May 17, 2019 - link

    AMD hasn't promised anything. It's all rumors and speculation at this point. Setting arbitrary price and core requirements (fueled by baseless rumors) as your "win condition" is just asinine.

    For that matter even if they only undercut Intel by $50 and matched performance, that's still a win, not a loss. For their sake I hope they secure a more definite victory, but the point is that reviewers aren't going to base their results on whackjob rumor-fueled conditions.
    Reply
  • Korguz - Friday, May 17, 2019 - link

    sonny73n even then.. cant look worse then intel has the last few years.. :) Reply
  • Irata - Friday, May 17, 2019 - link

    It would be very interesting if Intel addressed security considerations for CPU design, what the trade offs between speed and security are and how to chose which one.... Reply
  • Lord of the Bored - Saturday, May 18, 2019 - link

    "You choose speed until you get in the news because someone notices all the security holes you created. Then you tell everyone that it was unforeseeable and affects all processors instead of just badly-designed ones." Reply
  • GreenReaper - Friday, May 17, 2019 - link

    Let's hope Jintide's hardware security isn't compromised by the recent issues exposed in Intel cores. Reply

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