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“Reducing the power consumption and gate size of the LSI and FPGA.”
System LSI or FPGA is essential to our better life. In spite of increase of production volume, the development environment for the circuits has been facing many more problems than ever.
- larger gate count due to many functional demands on LSI or FPGA.
- not being able to improve a critical path short enough.
- boundless demand saving more power consumption by consumers.
- much longer time taking for a verification test.
- demands to increase an error detection rate.
- getting more uneasy to alter the process due to many practical problems caused by a deeper submicron process............
There are so many technical issues. However, you also have a bigger problem you have to solve.
The cost reduction, yes, you have to keep competing on production cost to survive in the industry!
How should you solve all of these problems?
Today, even advanced technology can do only little on these problems. Are you waiting for the breakthrough or muddle through of the technology?
Seeing this website, you may be able to stop waiting for that.
Why do not you ask us to solve these problems?
Based on a few decades of research, we have developed purely mathematical approach to design LSI or FPGA circuit. This unique technology is called Spinor and is applicable to any RTL source-code.
Spinor is the technology to reduce the gate count, meeting any given specifications. Spinor is also independent of any manufacturing process.
We offer our IP core series; the results of our long-term development. We also offer the RTL design service based on specifications provided by our customers. Deliverables for our customer would be “verilog RTL source-code our customer can synthesize with any EDA tool”, “comprehensive verification test bench”, and “its vectors”.
For our customers, we have designed circuits achieving “Lower Power”, “Smaller Area”, “Lower Delay” and “Lower Latency” simultaneously. All of our customers have been quite pleased by our deliverables.
So, which fields of applications would Spinor fit?
We show you some fields of applications where Spinor design can play effective roles.
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