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Altera-Provided Logic & Symbol Libraries

The MAX+PLUS® II/Cadence environment provides four logic and symbol libraries that are used for compiling, synthesizing, and simulating designs.

Note:

You can create your own libraries of custom symbols and logic functions in Concept and Composer. You can use custom symbols to incorporate an EDIF Input File, Text Design File (TDF), or any other MAX+PLUS II-supported design file into a project. MAX+PLUS II uses the cadence.lmf Library Mapping File to map standard Concept or Composer symbols to equivalent MAX+PLUS II logic functions. To use custom symbols, you can create a custom LMF that maps your custom symbols to the equivalent MAX+PLUS II-supported design file. You must also specify the directory that contains the MAX+PLUS II-supported design file(s) as a user library with the MAX+PLUS II User Libraries command (Options menu). Go to "Library Mapping File" and "Cadence Library Mapping File (cadence.lmf)" in MAX+PLUS II Help for more information.

The alt_max2 Library

You can enter a Concept or Composer Design Architect schematic with primitives and macrofunctions from the Altera-provided symbol library alt_max2. The alt_max2 library includes 74-series macrofunctions and several MAX+PLUS II primitives with corresponding Verilog HDL simulation models for controlling design synthesis and fitting. It also includes four macrofunctions--a_8count, a_8mcomp, a_8fadd, and a_81mux--that are optimized for different device families, and the clklock phase-locked loop megafunction, which is supported by some FLEX® 10K devices, with corresponding Verilog HDL and VHDL simulation models. See Table 1. Choose Old-Style Macrofunctions and/or Primitives from the MAX+PLUS II Help menu for more information on functions in the alt_max2 library.

The alt_lpm Library

The Altera-provided alt_lpm library, which is available for Concept and Verilog HDL designs, includes standard functions from the library of parameterized modules (LPM) 2.1.0, except the truth table, finite state machine, and pad functions. Other parameterized functions, including cycle-shared FIFO (csfifo) and cycle-shared dual-port RAM (csdpram) are also included. The LPM standard defines a set of parameterized modules (i.e., parameterized megafunctions) and their corresponding representations in an EDIF netlist file. These logic functions allow you to create and functionally simulate an LPM-based design without targeting a specific device family. The parameters you specify for each LPM function determine the simulation models that will be generated. After the design is completed, you can target the design to any device family. In designs created with Concept, the Altera alt_lpm library works only with HDL Direct and the hdlconfig utility. Choose Megafunctions/LPM from the MAX+PLUS II Help menu for more information about LPM functions in the alt_lpm library.

The lpm_syn Library

The lpm_syn library contains the Altera-provided parameterized functions. The lpm_syn library is similar to the alt_lpm library, except that it contains VHDL and Verilog HDL logic functions for use with Synergy, Concept, and Composer software.

The alt_mf Library

Altera provides a VHDL logic function library, alt_mf, that currently includes four macrofunctions--a_8count, a_8mcomp, a_8fadd, and a_81mux--for controlling design synthesis and fitting. These elements can be instantiated directly in your VHDL file. To designate that these logic functions should pass untouched through the EDIF netlist file to the MAX+PLUS II Compiler, you must select the Maintain attribute constraint for instances of these functions before running the Synergy software. These models allow you to perform functional VHDL simulation while maintaining an architecture-independent VHDL description.

Table 1 shows the MAX+PLUS II-specific logic functions.

Table 1. MAX+PLUS II-Specific Logic Functions
Macrofunctions Note (1)
Primitives
Name
Description
Name
Description
Name
Description
8fadd 8-bit full adder LCELL Logic cell buffer EXP MAX® 5000, MAX 7000, and MAX 9000 Expander buffer
8mcomp 8-bit magnitude comparator GLOBAL Global input buffer SOFT Soft buffer
8count
Note (2)
8-bit up/down counter CASCADE FLEX 6000, FLEX 8000, and FLEX 10K cascade buffer OPNDRN Open-drain buffer
81mux 8-to-1 multiplexer CARRY FLEX 6000, FLEX 8000, and FLEX 10K carry buffer DFFE DFFE6K
Note (3)
D-type flipflop with Clock Enable
clklock Phase-locked loop

Notes:

  1. Logic function names that begin with a number must be preceded by "a_" in VHDL designs. For example, 8fadd must be specified as a_8fadd.

  2. The a_8count logic function is for the MAX 7000 and MAX 9000 device families only.

  3. For designs that are targeted to FLEX 6000 devices, you should use the DFFE primitive only if the design contains either a Clear or Preset signal, but not both. If your design contains both a Clear and a Preset signal, you must use the DFFE6K primitive.

Go to: Go to the following topics, which are available on the web, for additional information:

Last Updated: August 28, 2000 for MAX+PLUS II version 10.0
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