Tokyo FD-SOI/RF-SOI Workshop (part 2): Sony 1mW FD-SOI GPS steals the show, but great presentations from EDA & design houses, too

The Sony presentation on a 28nm FD-SOI GPS chip for an IoT app, which cut power by 10x (down to 1mW), has gained enormous traction worldwide.  However, that was just one of a dozen excellent presentations made by industry leaders at the recent FD-SOI/RF-SOI workshop in Tokyo.

In part 1 of ASN’s coverage of the workshop (click here if you missed it), we took a quick look at the presentations by Samsung, ST, IBS, IBM and Lapis. Here in part 2, we’ll look at Sony’s, as well as the presentations from the big EDA vendors and the IP and design houses.

All of the presentations are now freely available on the SOI Consortium website (click here for the complete listing).

Low Power SOC design with RF circuit by the FD-SOI 28nm by Kenichi Nakano, Senior Manager, Section8 System Analog Product Department, Analog LSI Business Division, Device Solution Business Group, Sony Corporation

This presentation details Sony’s work on an 28nm FD-SOI version of its CXD5600GF Global Navigation Satellite System receiver LSI for smartphones and mobile products. When the bulk version was first released in 2013, the 10mW power consumption made it the industry’s lowest.  Now, with the 28nm FD-SOI version, they’ve gotten that down to a staggering 1mW – suitable for wearables. The presentation leads off by answering the question: Why FD-SOI? Sony engineers set themselves the challenge of a 0.6V target supply voltage for all logic, SRAM and analog (down from 1.1V in the previous generation). FD-SOI, especially leveraging body biasing, would enable them to attain this goal, providing a wide range of options for optimizing speed, power and area. The various steps and TEGs  (test element groups) are detailed in this presentation, and compared with 28nm and 40nm bulk. The advantages for low-power RF were particularly compelling.  This presentation has generated enormous attention in the press and in social media. For example, a week after EETimes published Sony Joins FD-SOI Club, it had been shared almost 200 times on LinkedIn.

Sony_Tokyo_FDSOI_GPS
(Courtesy: Sony)

 

Creation of high performance IP for FD-SOI by Kevin Yee, Director of Marketing, Cadence

As noted in this presentation, Cadence has existing solutions for 28nm FD-SOI, 14nm FD-SOI and 14nm FinFET-SOI. They have provided full design enablement for ST and Samsung processes. This presentation shows several examples of IP.

Cadence_Tokyo_FDSOI
(Courtesy: Cadence)

 

28nm FD-SOI Design/IP Infrastructure by Shirley Jin, Sr. Director of Engineering, VeriSilicon

Headquartered in Shanghai, Verisilicon provides Silicon as a Platform Services (SiPaaS), taping out 50 chips a year for leading customers at foundries worldwide. This presentation presents extensive, detailed 28nm FD-SOI benchmarking data for the ARM Cortex A7. VeriSilicon has an extensive IP portfolio in 28nm FD-SOI, working design flow and infrastructure to execute the designs.

Verisilicon_Tokyo_28FDSOI_ARMbenchmark

Designing with FD-SOI – Benefits and Challenges by Huzefa Cutlerywala, Sr. Dir. Technical Solutions, Open-Silicon

Open-Silicon is a leader in traditional ASIC solutions, derivative and platform SoCs, hardware and software design and production handoffs. They are a channel partner for ST’s FD-SOI in Japan, have pipe-clean design flows for FD-SOI, and are currently taping out an FD-SOI test chip for a customer. They see FD-SOI as ideal for consumer and networking/telecom/storage/compute applications. This presention lists what they see as the benefits (which are impressive) and challenges (which are fairly minor), and provides some details on GPU and DSP cores.

OpenSilicon_Tokyo_FDSOI_DSPcore
(Courtesy: Open-Silicon)

 

Ultra Low Power Memory Solutions for FD-SOI by Paul Wells, CEO, SureCore

SureCore develops ultra-low power embedded SRAM IP. Making the point that memory typically dominates SoC area and can consume 70% of the power, SureCore sees FD-SOI as an elegant solution. Working samples of their SRAM solution in ST’s 28nm FD-SOI were received in March 2014, showing a 50% dynamic power savings, and high performance at low operating voltage. Extensive comparisons are given in this presentation.

Surecore_Tokyo_FDSOI_SRAM
(Courtesy: SureCore)

 

Synopsys FD-SOI IP Solutions by Mike McAweeney, Sr. Director, IP Product Sales, Synopsys

This presentation gives quite a detailed rundown of the ST-Synopsys 28FD-SOI IP program. Synopsys licenses a comprehensive, silicon-validated 28nm FD-SOI IP portfolio to Samsung’s foundry customers and other manufacturing partners. FD-SOI customers contract with Synopsys for standard Synopsys IP titles, with Synopsys customer support, part numbers, documentation and standard views. Slides 7 and 8 detail the commonly used interface, analog and display IPs available through Synopsys.

(Courtesy: Synopsys)
(Courtesy: Synopsys)

 

~ ~ ~

The next FD-SOI/RF-SOI full-day workshop will be held in San Francisco at the Palace Hotel on Friday February 27th 2015, the same week as ISSCC. A broad range of technology and design leaders from across the industry such as Cadence, Ciena, GlobalFoundries, IBM, IMEC, Samsung, STMicroelectronics, Synopsys and VeriSilicon will present compelling solutions in FD-SOI and RF-SOI technologies, including competitive comparisons and product results. Registration is mandatory, free and open to everyone – click here to go to the registration page on the SOI Consortium website. (Lunch will be offered to all the attendees.)

 

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