Skip to content

ITC'99 benchmarks developed in the CAD Group at Politecnico di Torino

License

Notifications You must be signed in to change notification settings

cad-polito-it/I99T

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

13 Commits
 
 
 
 
 
 
 
 

Repository files navigation

PoliTo ITC99 (I99T)

License: EUPL RT-Level: VHDL Gate-level: edf Gate-level: bench Gate-level: blif

The ITC'99 benchmarks developed in the CAD Group at Politecnico di Torino (I99T) are a set of circuits whose characteristics are typical of synthesized circuits. For each bench both the RT-level VHDL description and the synthesized Gate-Level netlist are available. In April 2002 new RT-Level VHDL benchmarks were added to the set and more gate-level circuits were synthesized.

I99T benchmarks are available from https://github.com/cad-polito-it/I99T. They are licensed under the European Union Public License v1.2.

Detailed descriptions of benchmarks and an experimental RT-level ATPG tool can be found in the article "RT-Level ITC 99 Benchmarks and First ATPG Results", IEEE Design & Test of Computers, July-August 2000 (DOI: 10.1109/54.867894). Please, cite this paper if you use the benchmarks in your research.

In brief, the main characteristics are:

  • Fully synthesizable RT-Level VHDL descriptions (in Synopsys Design Compiler description styles).
  • No compiler specific directive.
  • Require only IEEE standard logic and arithmetic packages.
  • Completely synchronous circuits.
  • One single-phase clock signal connected directly to memory elements.
  • Global reset signal always available.
  • No internal memories (except register banks).
  • No 3-state busses.
  • No or wired connections.

VHDL RT-Level descriptions range from a tiny, monolithic circuit (1 entity, 1 process, 70 lines) to a large, multi-entity, multi-process one (11 entities, 33 processes, 1,424 lines). At the Gate-Level, netlists range from an s27-sized circuit (2 inputs, 29 gates, 4 flip-flops, 150 faults) to a circuit more than 3 times larger that the largest ISCAS'89 (37 inputs, 69,917 gates, 3,320 flip-flops, 429,712 faults).

VHDL descriptions were synthesized to netlists using both standard options and optimized (_opt) options. The former may contains completely useless gates with no inputs and no outputs. Optimized gate-level circuits superseded the stripped gate-level circuits of the first release. Most benchmarks are available as combinational circuits (_C), where flip-flops have been transformed to input/output pairs. The different releases of the benchmarks are mapped to GitHub's releases.

All benchmarks are syntactically correct, but, due to the development process, there is no guarantee that VHDL descriptions are functionally meaningful. However, to help researchers better understand their results, the original functionalities of VHDL descriptions is reported in the following table.

NAME ORIGINAL FUNCTIONALITY
b01 FSM that compares serial flows
b02 FSM that recognizes BCD numbers
b03 Resource arbiter
b04 Compute min and max
b05 Elaborate the contents of a memory
b06 Interrupt handler
b07 Count points on a straight line
b08 Find inclusions in sequences of numbers
b09 Serial to serial converter
b10 Voting system
b11 Scramble string with variable cipher
b12 1-player game (guess a sequence)
b13 Interface to meteo sensors
b14 Viper processor (subset)
b15 80386 processor (subset)
b16 Hard to initialize circuit (parametric)
b17 Three copies of b15
b18 Two copies of b14 and two of b17
b19 Two copies of b14 and two of b17
b20 A copy of b14 and a modified version of b14
b21 Two copies of b14
b22 A copy of b14 and two modified versions of b14

Available formats

  • RT-Level VHDL descriptions (vhd)
  • Synthesized netlists in EDIF format (edf)
  • Synthesized netlists in ISCAS'89 format (bench)
  • Synthesized netlists in BLIF format (blif)
  • Fault lists (fau)

Notes: Due to format restrictions, not all circuits are available in all formats; in some circuits there are multiple connections between the same pair of gates; in some circuits there are dandling (unconnected) gates.

Contact information

Matteo Sonza Reorda <[email protected]>

Giovanni Squillero <[email protected]>