Overview

2. Overview • Programmable Implementation Technologies (section 6.8) • Why Programmable Logic? • Read-Only Memories (ROMs) • Programmable Logic Arrays (PLAs) • Programmable Array Logic (PALs)

3. Why Programmable Logic? • Small and Medium Scale Integration • Up to 200 gates per device/IC • Most common is 74xx series (gates, FF, Decoders …) • Advantages • Easy to understand functions • Exceptional Signal Visibility • Disadvantages • Low logic density means big boards or small designs • Higher power consumption • Failure concern per function

4. Why Programmable Logic? • Large Scale Integration • Ranging from 200 to 200,000 gates per device. • Small memories, programmable logic devices • Advantages • Higher logic density means smaller boards or larger designs. • Many devices can be programmed and reprogrammed, saving expense when changes are made. • Disadvantages • Need to learn how to use and program • Signal visibility is reduced

5. Why Programmable Logic ? • Many programmable logic devices are field- programmable, i. e., can be programmed outside of the manufacturing environment • Most programmable logic devices are erasable and reprogrammable. • Allows “updating” a device or correction of errors • Allows reuse the device for a different design - the ultimate in re-usability! • Ideal for course laboratories

6. Programmable Configurations • Read Only Memory (ROM) - a fixed array of AND gates and a programmable array of OR gates • Programmable Array Logic (PAL) - a programmable array of AND gates feeding a fixed array of OR gates. • Programmable Logic Array (PLA)Ò - a programmable array of AND gates feeding a programmable array of OR gates. PAL is a registered trademark of Lattice Semiconductor Corp.

7. Gate Symbols Figure 6-18 Conventional and Array Logic Symbols for OR Gate

8. Read Only Memory X X X D7 D6 X X D5 X D4 D3 A2 A X D2 X X B A1 D1 X A0 D0 C F0 F2 F1 F3 • Read Only Memories (ROM) or Programmable Read Only Memories (PROM) are OP logic devices with a fixed AND array and a programmable OR array. • have: • k input lines, • m output lines, and • m = 2k decoded minterms • n OR gates • Usually referred as 2k x n ROM • Can implement n functions with k inputs k-to-2k line decoder

9. Read Only Memory • A program for a ROM or PROM is simply a multiple-output truth table • If a 1 entry, a connection is made to the corresponding minterm for the corresponding output • If a 0, no connection is made • There is no advantage of simplifying the function when using ROM since we need to specify the entire list of minterms. • Can be viewed as a memory with the inputs as addresses of data (output values), hence ROM or PROM names!

10. Read Only Memory Example X X X D7 D6 X X D5 X D4 D3 A2 A X D2 X X B A1 D1 X A0 D0 C F0 F2 F1 F3 • Example: A 8 X 4 ROM (N = 3 input lines, M= 4 output lines) • The fixed "AND" array is a“decoder” with 3 inputs and 8outputs implementing minterms. • The programmable "OR“array uses a single line torepresent all inputs to anOR gate. An “X” in thearray corresponds to attaching theminterm to the OR • Read Example: For input (A2,A1,A0)= 001, output is (F3,F2,F1,F0 ) = 0011. • What are the simplified expressions for F3, F2 , F1 and F0 in terms of (A2, A1, A0)?

11. Programmable Array Logic (PAL) • PAL is the opposite of ROM; it is PLD that has a programmable AND array and a fixed OR array. • Function has to be reduced into SOP before it is programmed into the PAL • Disadvantage • ROM guaranteed to implement any M functions of N inputs. PAL may have too few inputs to the OR gates. • Advantages • For given internal complexity, a PAL can have larger k (inputs) and n (outputs) • Some PALs have outputs that can be complemented, adding POS functions

12. Figure

13. Programmable Logic Array (PLA) • Compared to a ROM and a PAL, a PLA is the most flexible having a programmable set of ANDs combined with a programmable set of ORs. • A PLA has all of its product terms connectable to all outputs, overcoming the problem of the limited inputs to the PAL OR gates • Some PLAs have outputs that can be complemented (using XOR gates), adding POS functions

14. Programmable Array Logic (PLA) A B C A B X 1 X X X B C X X 2 X Fuse intact X Fuse blown A C X 3 X X A B X X 4 X X 0 C C B B A A 1 X F 1 F 2 • The PAL is the opposite of the ROM, having a programmable set of ANDs combined with fixed ORs. 3-input, 3-output PLA with 4 product terms Used to produce POS or complement of function

15. ROM, PAL and PLA Summary Fixed Programmable Programmable Inputs AND array Outputs OR array Connections (decoder) (a) Programmable read-only memory (PROM) Programmable Fixed Programmable Inputs Outputs OR array Connections AND array (b) Programmable array logic (PAL) device Programmable Programmable Programmable Programmable Inputs Outputs Connections AND array OR array Connections (c) Programmable logic array (PLA) device