TriCN, developer of intellectual property (IP) for high-speed semiconductor interface technology, announced the immediate availability of its Base I/O library in the 130
nanometer (nm) process for Chartered Semiconductor. Broadly applicable to a wide variety of interface application requirements, TriCN's Base I/O library is a comprehensive set of cells containing all elements necessary for pad ring assembly.
TriCN's Base I/O library is particularly well suited to the demands of high-performance interface applications. The cells are designed to accommodate more robust power and ground demands, allowing for an effective area gain
compared to competing libraries. All cells feature built-in noise isolation to provide improved operation and reliability in high-performance applications. Additionally, the library is designed to support not only
bond-wire, but also flip-chip packaging typically found in high-speed ICs.
"We are pleased to offer support for Chartered Semiconductor customers in the TriCN product portfolio," said Joseph Curry, CEO of TriCN. "As one of the world's top three semiconductor foundries, Chartered has a large and diverse group of customers who can now take advantage of TriCN's high-performance interface technology to
achieve their frequency targets. High-speed interface design is an increasingly complex prospect for semiconductor companies. We are eager to work with both Chartered and their customers to meet these challenges."
TriCN's library is well differentiated from competing products on the basis of the variety of cells offered, as well as the performance and flexibility of those cells. Along with the standard array of Corners, Breakers, Power and Ground, and LVTTL/LVCMOS cells, TriCN's Base I/O
Library includes higher performance HSTL, SSTL-2, PCI 2.2, PCI-X 1.0, and USB 1.1, cells currently lacking in most competitive offerings.
TriCN's Base I/O library is immediately available for flip-chip and bond-wire applications in the Chartered 130nm process.
For more information, please visit TriCN's web site at