A Silicon Valley hardware startup called Flex Logix is aiming to speed up a range of software and hardware applications with its niche computer chips.
The company is establishing a business around FPGAs (field-programmable gate arrays), which are reconfigurable chips that can help hardware run specific applications faster. A notable FPGA user is Microsoft, which has implemented the chips in data centers to quickly deliver more relevant Bing search results.
PCs and servers today run on general-purpose processors like CPUs, but FPGAs are different, with functionality defined mainly through software on the chip. Flex Logix claims it has designed a new type of FPGA, which it hopes will be used in networking, telecommunications, servers, military equipment and other hardware.
The company says its EFLX FPGA has a different topology that makes it faster and more power efficient than rival products. As a result, hardware will run faster, and software upgrades on FPGAs to the latest technologies will be easy, company officials say.
The economics of the chip business relies heavily on capital, especially for companies like Intel, Advanced Micro Devices and Nvidia, which spend money on designing and making chips. Flex Logix will not make chips, but instead license its FPGA cores to chip makers who ultimately get physical chips made through factories, said Geoff Tate, CEO of the company.
The business model of Flex Logix is closer to that of ARM Holdings, which doesn't make physical chips, but instead licenses its processor designs to mobile chip makers.
"There's very little interest in funding chip companies," said Tate, who was formerly the CEO of computer memory company Rambus, which also generates a majority of its revenue from licensing. That's why the company put together a business model that didn't require a lot of capital.
The FPGA market is a small slice of the overall semiconductor market. By itself, the FPGA market was worth US$5.4 billion in 2013, and could reach $9.9 billion by 2020, according to Grand View Research.
Flex Logix faces the challenge of uprooting Altera and Xilinx, which are leaders in the FPGA market. But Tate claimed EFLX FPGAs are faster and have more power-efficient design than rival products.
Flex Logix uses a hierarchical network with a central bus connecting all logic blocks, which is different from a mesh network of interconnected blocks typically used in FPGAs. The central interconnect in EFLX moves data faster, which helps execute tasks faster while reducing power consumption, Tate claimed.
However, even if the company finds customers, the market scope could be limited, said Nathan Brookwood, principal analyst at Insight 64.
The interest in FPGAs isn't as broad as general CPUs or graphics processors because of the ability to run only specific applications, Brookwood said.
But there are opportunities, Brookwood said. For example, Intel wants to integrate FPGAs in some Xeon server chips for specific applications that may be slow on general-purpose CPUs.
Tate also has some experience licensing technology to customers, though his tenure at Rambus had its share of ups and downs with respect to technology development and licensing, Brookwood said.
Tate wasn't ready to announce customers. But Flex Logix next month is expecting to receive its first test EFLX chip, which will be checked to ensure it meets performance and power specifications.