Logic Design for Array-Based Circuits
Copyright © 1996, 2001, 2002 Donnamaie E. White
Sizing the Design - Selecting the Array
Last Edit July 22, 2001
Review the Available Arrays
With a clear understanding of the design description and overall objectives, review the arrays currently available that could be used.
For a listing of currently-available array series, check with the latest ASIC vendor surveys run by several of the engineering magazines. These buyer's guides provide a cursory look at what is available and allow a first-pass sort of available arrays into feasible and non-feasible, a staring point from which the designer can proceed. They have limited space to review technology, die size, cell counts, metal layers, number of macros, interface levels, second sources and the EWS workstations the array ven dor supports. They may not have the latest updates on an array series. They can provide addresses and phone numbers for array vendors.
Once one or more vendors have been selected, the designer should obtain data sheets and design guides from the prospective vendors for the most promising array series and begin a more in-depth review.
Example - The AMCC Arrays - as of 1991
The industry shows an evolutionary trend as designers drive them to develop larger, faster and cooler arrays.
There have been five bipolar array families from AMCC since 1984, (see Table 3-2) increasing in cell size and speed while reducing die size and power. The most recent is the AMCC Q20000 series, officially released in September 1989.
Table 3-2 AMCC Bipolar Array Series
The Q20000 Series speed estimates list its internal toggle rate, at least twice as fast as that of the previous Q5000 Series, at 1.25GHz, with an enhanced drive and much lower power. Individual macros have been found to run at 1.4GHz and higher.
There are two AMCC BiCMOS array families, the Q14000 Series and the Q24000 Series, a partial shrink of the Q14000, as shown in Table 3-3.
Table 3-3 AMCC BiCMOS Array Series
The current BiCMOS families were preceded by three CMOS array series, each faster than its predecessor. The BiCMOS arrays combine the drive and interface ability of bipolar with the cooler operation of CMOS. The newer BiCMOS Series must be larger, faster and cooler.
Comparing the arrays
The items that define the differences between array series include those shown in Table 3-4.
Table 3-4 Features for Array Series Comparison
The arrays within a series refine these differences with specific information on size, number of cells by type, and details about interfacing, as shown in Table 3-5.
Data sheets, product profiles and macro library design guides or design manuals supply the specific information for an array series. The design manual, supplied with the array library media, is the controlling document.