Thalia Design Automation’s AMALIA toolset – Analog Analyzer and Optimizer is now ready for design services engagement with Analog and Mixed signal design houses.
The tool incorporates innovative algorithms and CAD methodologies to quickly explore a large search space and find solutions that meet or better circuit requirements.
Category: News
Nature Based EDA gets funded – EE time Europe
Analog EDA startup Thalia Design Automation Ltd., founded by a former CAD engineering manager for Micrel, has raised $1 million in a mix of equity funding and grant support. The Series A funding round was led by Mercia Fund Management and Finance Wales.
Thalia is developing EDA tools that use behavior algorithms from nature for the rapid optimization of analog and mixed-signal performance and power consumption. The money raised will be used to expand at Thalia’s headquarters in Cwmbran, Wales, and in Bangalore, India and to support initial customer engagements for the company’s tools.
The company was founded in 2011 by Sowmyan Rajagopalan, who serves as CEO and CTO. Rajagopalan had previously worked as CAD engineering manager for Micrel Inc. (San Jose, Calif.), according to his LinkedIn entry. Rodger Sykes, a UK semiconductor industry veteran serves the company as chairman.
The company has developed the Amalia analog circuit design optimizer and the Emera power device design optimizer. “Thalia has taken a number of algorithms from nature – such as methods used by ants and bees to search for food – and applied them to optimizing design results. The power tool works alongside layout tools and so works at the physical level to minimize size and power. The analog tool works at the variable component and functional level and can home in on an optimum solution much faster than traditional approaches,” said Sykes.
“Analog design methodology has remained unchanged for a long time. I have seen the technical and time-consuming efforts analog designers have had to live with in order to design and optimize their circuits,” said Rajagopalan, in a statement. “Thalia’s tools will enable users to meet more challenging design requirements within shorter time frames. Custom chip design companies will benefit from reduced design times, shortened redesign cycles, better performing parts and more effective use of scarce skilled design resource,” he added.
The AI methods used by Thalia involve considering million’s of combinations of multiple component parameters to select the combination with gives the best circuit performance. Optimizations that typically took several days to weeks to complete can now be performed in a matter of hours, the company said in a statement. The tools can be used to support the retargeting of existing designs to alternative silicon foundries for cost reduction and sourcing flexibility.
The Amalia tool offers a 10 to 50 times speed up of performance verification test for analog/RF designs as well as optimisation of physical area constraints and 3- and 6-sigma Monte Carlo statistical verification. Emera provides nominal, PVT corner and 3- and 6-sigma optimisation analysis in minutes, the company claims.
“We will start with a mixed license and service business model to help demonstrate that our tools do provide the benefits we claim,” said Sykes. As a result Thalia is also offering analog circuit design and porting of designs to alternative foundries. The company has a staff of eight people split between Cwmbran and Bangalore.
In addition to funding from Mercia Fund Management and Finance Wales the company has secured grant support from the UK government’s Technology Strategy Board (TSB) and the Welsh government.
Mercia Fund Management invests
Thalia Design Automation supply innovation Electronic Design Automation (EDA) tools providing chip designers with a new generation of tools for optimising analogue and power electronic circuits. Their tools use sophisticated artificial intelligence (AI) algorithms to search millions of parameter combinations to rapidly seek the optimum solution in hours rather than day or weeks. These tools not only assist engineers’ produce better designs but also greatly increase their productivity, reduce design time-scales and re-work cycles resulting in lower product development costs and superior product performance.
http://www.merciafund.co.uk/portfolio/thalia-da/