Cambridge startup Ultrasoc has raised £5m from new and existing investors to further develop its embedded IP that helps system-on-chip designers analyse what is happening in complex chips with billions of transistors.
The money will be used for R&D and to boost the commercial team, increasing the staff from 20 to perhaps 30 says Rupert Baines, UltraSoC CEO, and looking at opening an office in Bristol.
The need for safety, security and performance-tuning is increasingly important and the embedded analytics allows the chip to monitor and optimise its own behaviour at a hardware level, as well as provide insights that enable engineers to make improvements and fix problems. The same technology can detect evolving real-world threats and problems – for instance those caused by malicious attacks. These features benefit any electronic system, but are particularly attractive in the automotive and high-performance computing (HPC) sectors.
“Hard tech is back in favour with the UK and global investment community, with recent funding for Ultrahaptics, Graphcore and SiFive (a fellow RISC-V proponent), plus successful exits at Movidius and Mobileye,” said Baines, UltraSoC CEO. “Our investors are excited by the potential of UltraSoC’s technology and are committed to supporting our aim of putting intelligent analytics into every chip.”
UltraSoC’s semiconductor intellectual property (SIP) enables designers to easily and cost-effectively create complex SoCs (systems on chip) with built-in intelligence that continuously monitors and responds to real-world behaviour. This allows SoCs to optimise power consumption and performance and deal with security threats or safety breaches.
Successful development of the company’s debug tools and increased awareness of the technology’s potential benefits has meant a series of significant commercial engagements, with more in the pipeline. Amongst others, HiSilicon (Huawei), Imagination Technologies, Movidius (now Intel), and Microsemi all use UltraSoC technology in their designs, delivering proven hardware-embedded benefits to their customers. To ensure these benefits are accessible to customers in all sectors across the globe, UltraSoC partners with leading names in the semiconductor industry including ARM, Baysand, Cadence/Tensilica, CEVA, Codasip, Lauterbach, MIPS and Teledyne LeCroy.UltraSoC’s flagship product line is a suite of semiconductor IP that allows chip designers to integrate an intelligent analytics infrastructure into the core hardware of their devices. By monitoring and analysing the real-world behaviour of entire systems via UltraSoC’s intelligent analytics embedded in the silicon, engineers can take action to reduce system power consumption, increase performance, protect against malicious intrusions, and ensure product safety.
These capabilities address applications in a broad range of market sectors, from automotive and IoT products, to at-scale computing and communications infrastructure.
Source: The Embedded Blog: UltraSoC raises £5m for embedded analytics
Quantum technology developed in Bristol is being used in medical screening, drone-based gas-leak detection and cryptography.
Three of the entrepreneurs on this year’s programme at the Quantum Technology Enterprise Centre (QTEC), the first, have been showing their plans. The course at the University of Bristol combines business training with technology development and is looking to recruit 11 more entrepreneurs for next year’s programme.
Neciah Dorh of FluoretiQ is developing a handheld fluorescent sensor that is 100 times more sensitive than today’s systems. The first product is for testing water quality by detecting bacteria at a level of parts per trillion.
Dorh is also looking at using the sensor to detect the bacteria that cause sepsis in hospital. This currently takes from 10 to 24 hours, so he is working with the department of medicine in an InnovateUK project to develop a chemical tag for the bacteria so that a handheld sensor that can provide a result instantly.
Meanwhile Xiao Ai has been working on ways to use single photon measurement technology to detect gas leaks from pipelines. Quantum Light Metrology is using quantum sensor technology licensed by the University of Bristol to Swiss company IDQ to build a lightweight sensor that can be installed on a drone.
The software allows the sensor to detect the gas leaks from a distance of 50m from a drone moving at 30mph, and QLM is working with drone operator Sky-Futures to monitor pipelines and gas installations around the world.
The most advanced technology in the programme is aiming to provide quantum cryptography for communications systems. KETS Quantum Security has developed a commercial chip that can make unbreakable cryptography systems that are ten times smaller, faster and cheaper than today’s systems, says Philip Sibson, chief technology officer. The technology has been demonstrated in the lab and the company, now with five people, is working with a European defence company on using the system on a drone.
You can apply for QTEC’s next programme here. See the story on the High Tech channel at TechSpark