Abstract: Macro design techniques are disclosed for facilitating subsequent stage wiring across the macro. Whitespace areas within the macro are rearranged to accommodate the wiring. The rearrangement may take the form of physical rearrangement of the whitespace areas into routing tracks extending from one side of the macro to another; shielding using, for example, macro power bussing and/or macro wiring; routing power busses to the rearranged whitespace; and/or inserting active circuits with pins accessible to the wiring. In a preferred embodiment, active circuits are placed into rearranged macro whitespace during the design of subsequent stages. The rearrangement of the whitespace facilitates the wiring across the macro so that slew rate and path delay requirements of the subsequent stage wiring can be maintained, without excessive buffering or rerouting of wiring.

Abstract: Disclosed is a method of routing power from a power network to one or more power service terminals within a voltage island, comprising: dividing the power network into segments; creating power service terminal to segment connections based on a first set of criteria; removing selected power service terminal to segment connections based on a second set of criteria; and selecting one power service terminal to segment connection for each the power service terminal. The first criteria is includes power drop, wire length, wire size, wiring layer restrictions and the second criteria includes electro-migration, wire length and current criteria.

Abstract: A method of integrated circuit design using the selective replacement of increasingly noise tolerant cells is disclosed. The method involves compiling a library comprising a plurality of design element cells, sorting the library into groups of functionally-equivalent cells, and ordering the cells in each group from one extreme to the other extreme value of a featured parameter for which the integrated circuit is to be tested. Each one of the cells in the library have a known value of another parameter so that the substitution of a library cell for an original cell or another library cell does not affect the overall integrated circuit value for that known parameter. A substitution can thus be made with the knowledge that additional problems involving the known parameter are not being created.

Abstract: A method and system for modifying power rails of an integrated circuit having improved wireability. This is accomplished by initially generating a power railing design of the integrated circuit into a three-dimensional rail based model. Next, analysis of the design is performed as to placement of the power rails in relation to neighboring elements that affects a predefined wireability. Finally, modification of a segment of each power rail that affects wireability is performed so that required power supply to the neighboring elements (e.g., pins, rails etc.) remains unaffected.

Abstract: A method of integrated circuit design using the selective replacement of increasingly noise tolerant cells is disclosed. The method involves compiling a library comprising a plurality of design element cells, sorting the library into groups of functionally-equivalent cells, and ordering the cells in each group from one extreme to the other extreme value of a featured parameter for which the integrated circuit is to be tested. Each one of the cells in the library have a known value of another parameter so that the substitution of a library cell for an original cell or another library cell does not affect the overall integrated circuit value for that known parameter. A substitution can thus be made with the knowledge that additional problems involving the known parameter are not being created.

Abstract: Redundant chip sections held in standby are substituted for chip sections that are at risk of over heating based on certain sensor signals. When these signals are received operations of the chip section at risk IS transferred to a redundant chip section and the chip section at risk is shut down. After the original chip section has cooled, it becomes available as a replacement chip section itself. The sensor signals may be based on temperature values, elapsed operation time, and number or rate of operations within a chip section.

Abstract: A system and method for designing a low power ASIC using weighted net toggle information. In particular, the system and method includes a simulation system that executes a set of application test suites that is representative of the code that will likely run on the ASIC and weights each of the applications. The weighted net toggle information can then be evaluated and utilized to modify the ASIC design.

Abstract: According to the present invention, an automated method to tailor an ASIC core to meet the needs of an individual system on a chip design is disclosed. The preferred method starts with a technology-independent hardware description language (HDL) representation of the core des i on. This high-level design is subdivided into functions, or blocks. Blocks which cannot be removed without impacting the integrity of the core design an are ta b y ed with “must-keep” indicators. The execution of all application code that will employ the core is simulated on the high-level model. The simulation process accumulates information about what blocks in the model are used by the application code, and which are unused, information about which blocks are unused is combined with information about what blocks are not removable. The high-level core design is then tailored by deleting blocks in the core design that are both unused and removable.

Abstract: An apparatus comprising a base macro, with fixed timing, surrounded by, and connected to, at least one selectable feature macro. The features of the apparatus may be selectively provided by connecting one or more of the selectable feature macros to the base macro.

Abstract: A programmable interconnection system for a programmable array includes pluralities of parallel buses for rows and columns of logic cells arranged in the array. Two groups of seven buses are provided for each row or column of logic cells. The buses include conductors connectable to each other, and selectively connectable to, or isolated from, the logic cells. A hierarchy of conductor lengths is disclosed to provide intra-sector and inter-sector bussing. Staggered switching is employed for adjacent sector access.

Abstract: In a programmable gate array ("PGA"), logic cells therein are programmed to create a combined output with enhanced current driving ability. Specifically, a first logic cell is programmed to have a first output and a second logic cell is programmed to have a second output. The first and second outputs are connected within the PGA forming a combined output having enhanced current driving ability by the first logic cell and the second logic cell. The first and second logic cells are programmed with identical logic functions such that they operate in parallel.

Abstract: A wiring layout design method and system providing efficient routing of wiring paths between multiple function blocks in an integrated circuit is disclosed. Associated with the function blocks are logic service terminals (LSTs) aligned on-grid relative to the global wiring layout. The technique utilizes a locator designating a desired contact point for each on-grid LST to be connected. The contact point designation is made without restriction relative to the predetermined grid pattern of the logic service terminals. Subsequent use of a conventional global wiring layout program to generate a layout of connections between LSTs, a reformatting program connects each wired logic service terminal to its desired contact point on the associated function block using the corresponding locator.