Toshiharu Noda

Corrosion and Heat Resistant Materials. Development of High Performance Heat Resistant Near-Alpha Titanium Alloy Compressor Disk.

For near-alpha DAT54, Ti-5.8Al-4Sn-3.5Zr-2.8Mo-0.7Nb-0.4Si-0.06C, designed as a compressor disk alloy, the optimum primary alpha was defined 17vol.% in the transformed beta. The full-scale disks in the alloy were successfully manufactured through the melting by PPC-VAR-VAR and the thermomechanical processing by GFM press- die forge. The solution treatment for the above structure, at beta transus-25 °C, contributed to the proper balance of the LCF life with the creep strength of the disks up to 540 °C.

Symbolic Layout System: Application Results and Functional Improvements

This paper provides an outline, together with application results and functional improvements, of the symbolic layout system MGX. MGX was developed to support the layout design of the functional blocks of microprocessors for MOS technology. The point considered the most important when we started developing MGX is reducing design time without much waste of silicon area. In order to achieve this goal, a layout style in MGX in which all symbolic layout elements are on movable grid points and which has an orderly structure is adopted, and the fast compaction algorithm is selected. Another consideration for the system is to support the whole LSI layout process. Using MGX, a 16-bit microcontroller chip was successfully designed. MGX offered high transistor packing density and high productivity of the layout design. The experience with this layout design has shown that another goal to be achieved in the development of a symbolic layout system is the ability to update designed physical layout patterns with advances in LSI fabrication technology without having to redo the layout. Hence, MGX has been improved so as to deal with various design rules which may become possible with advances in LSI fabrication technology and to give higher transistor packing density. Experimental results show that the transistor packing density of the layout of a D flip-flop which is designed by using MGX increases by approximately 39 percent due to these improvements.