industry news
Subscribe Now

UltraSoC delivers industry’s first RISC-V processor trace IP

Cambridge, UK, 25 January 2018 – UltraSoC, the leading developer of embedded analytics technology, today announced general availability of its RISC-V processor trace solution, an industry first and a key enabler within the RISC-V ecosystem. The addition of trace capabilities means that UltraSoC provides the most comprehensive RISC-V commercial debug solution.

Last June the company announced plans to develop processor trace, when it also detailed a trace specification to be considered for adoption as part of the RISC-V open standard.

UltraSoC’s solution is backed by major RISC-V processor vendors including Andes, Codasip, Microsemi, Roa Logic, SiFive and Syntacore, and tools vendors. As well as a stand-alone IP module for integration with UltraSoC’s SoC architecture, the company offers a variety of packaged options to get RISC-V designers up-and-running quickly without necessarily using UltraSoC for other functionality. These range from a lightweight package that combines simple run-control with USB as the debug interface; to more sophisticated solutions with both run control and trace, and interfacing via either JTAG or UltraSoC’s proprietary non-intrusive, bare-metal USB. UltraSoC remains the only company that supports all of the main run control options offered within the RISC-V ecosystem.

Rick O’Connor, executive director of the non-profit RISC-V Foundation, commented: “RISC-V is redefining the SoC value proposition: a key part of that is building a much more open and robust ecosystem than developers have been used to. On the technical level, full availability of processor trace is a key part of that development ecosystem. Within the RISC-V Foundation, we’re working to standardize the interfaces to RISC-V cores that provide processor trace; we’re delighted to see UltraSoC supporting that effort, while also delivering commercially.”

Processor trace functionality allows the behavior of a program to be viewed in detail, instruction-by-instruction, and is a key requirement for system developers. The UltraSoC RISC-V trace encoder supports both 32 and 64-bit RISC-V designs and the IP block integrates smoothly with the rest of the UltraSoC portfolio, supporting open and industry standard architectures to put self-analytic capabilities at the heart of SoCs. UltraSoC’s embedded analytics supports design teams, helping to manage complexity and improving time to market, design costs, reliability, safety and security in applications from automotive to enterprise IT and the IoT.

Since UltraSoC announced its RISC-V trace solution last year, the company’s involvement in the ecosystem for the open source architecture has progressed significantly with endorsements from more processor vendors and partners. In September, UltraSoC announced that its embedded analytics IP will be available through the SiFive DesignShare ecosystem that gives any company, inventor or maker the ability to harness the power of custom silicon. In November, UltraSoC announced it has been selected for use in Microsemi’s RISC-V product range.

UltraSoC will be at Embedded Word 2018 (Nürnburg, Germany, 27th February – 1 March), exhibiting within the RISC-V booth in hall 3A, booth 3A-419. UltraSoC CEO Rupert Baines has been selected to present a paper at 10am, on 27th February alongside Russ Klein of Mentor Graphics, entitled ‘RISC-V: Emulation and Rich, Non-Intrusive Analytics Address Verification Complexity’. The session will form part of the RISC-V Class, a full day of RISC-V focused discussions and presentations. For more details on the event and to arrange a meeting, visit the event page on the UltraSoC website.

About UltraSoC

UltraSoC is an independent provider of SoC infrastructure that enables rapid development of embedded systems based on advanced SoC devices. The company is headquartered in Cambridge, United Kingdom. For more information visit www.ultrasoc.com

Leave a Reply

featured blogs
Mar 29, 2024
By Mark Williams, Sr Software Engineering Group Director Translator: Masaru Yasukawa 差動アンプはã1つの入力信号ではなく2つの入力信号間の差にゲインをé...
Mar 26, 2024
Learn how GPU acceleration impacts digital chip design implementation, expanding beyond chip simulation to fulfill compute demands of the RTL-to-GDSII process.The post Can GPUs Accelerate Digital Design Implementation? appeared first on Chip Design....
Mar 21, 2024
The awesome thing about these machines is that you are limited only by your imagination, and I've got a GREAT imagination....

featured video

We are Altera. We are for the innovators.

Sponsored by Intel

Today we embark on an exciting journey as we transition to Altera, an Intel Company. In a world of endless opportunities and challenges, we are here to provide the flexibility needed by our ecosystem of customers and partners to pioneer and accelerate innovation. As we leap into the future, we are committed to providing easy-to-design and deploy leadership programmable solutions to innovators to unlock extraordinary possibilities for everyone on the planet.

To learn more about Altera visit: http://intel.com/altera

featured chalk talk

USB Power Delivery: Power for Portable (and Other) Products
Sponsored by Mouser Electronics and Bel
USB Type C power delivery was created to standardize medium and higher levels of power delivery but it also can support negotiations for multiple output voltage levels and is backward compatible with previous versions of USB. In this episode of Chalk Talk, Amelia Dalton and Bruce Rose from Bel/CUI Inc. explore the benefits of USB Type C power delivery, the specific communications protocol of USB Type C power delivery, and examine why USB Type C power supplies and connectors are the way of the future for consumer electronics.
Oct 2, 2023
23,222 views