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Libraries

0.18 micron Libraries

We have helped to revolutionize the foundry industry by offering comprehensive free-of-charge libraries from multiple vendors. In addition, HJTC also offers other libraries available on a fee basis.

Free Libraries

Other Libraries

> Artisan 0.18um Library
> Virtual Silicon 0.18um Library
> Faraday 0.18um GII Library
> Faraday 0.18um LL Library
> VeriSilicon 0.18um Library
> Virage Logic 0.18um Memory Compiler

Free Libraries

Artisan 0.18um Library
Standard Cell

  • 478 high-density standard cells
  • 9-track cell architecture
  • Average cell density of 111K gates/sq.mm
  • Multiple drive strengths
  • Routable in 3, 4, 5 or more metal layers
  • Comprehensive design tool support
  • Process specific electrical and physical tuning

Single-Port Synchronous SRAM Generators

  • Optimized for high density and high speed
  • Flex-Repair? redundancy implementation option
    - Includes separate Fuse-Box Generator
    - Supports flexible BIST implementation
  • Broadly configurable to up to 512k bits:
    - 256 to 16k words deep (word increment = 2 x column mux)
    - 2 to 128 bits wide (bit increment = 1)
  • User-configurable mask write option (1 to 36 bit segments)
  • Aspect ratio control for efficient floor planning (column mux options: 4, 8, 16)
  • Memory operation and data retention at low voltage and down to 0 MHz
  • Low active power and leakage-only standby current
  • Accurate timing and power models
  • Complete set of models supporting industry-leading design tools
  • Robust design practices and validation procedures ensure successful designs
  • Extensive silicon validation

Dual-Port Synchronous SRAM Generator

  • Optimized for high density and high speed
  • Two fully-independent read/write ports
  • Broadly configurable to up to 256k bits:
    - 128 to 8k words deep (word increment = 2 x column mux)
    - 2 to 128 bits wide (bit increment = 1)
  • User-configurable mask write option (1 to 36 bit segments)
  • Aspect ratio control for efficient floor planning (column mux options: 4, 8, 16)
  • Memory operation and data retention at low voltage and down to 0 MHz
  • Low active power and leakage-only standby current
  • Accurate timing and power models
  • Complete set of models supporting industry-leading design tools
  • Robust design practices and validation procedures ensure successful designs
  • Extensive silicon validation

Inline I/O

  • 600+ 3.3V/5VT
  • Pad pitch: 60 um
  • Input: pull-up/pull-down,Schmitt trigger,LVTTL,CMOS
  • Output: multiple current up tp 24mA with 3 slew rate options
  • ASpecial pads: clock, crystal oscillator, corner, power and ground

Architecture

Word

Bit

Mux

Size

Access Time (ns)

Single Port Sync. SRAM

16 - 8K
(Increment: 2X mux)

2 - 128
(Increment: 1)

4, 8, 16

32 bit - 512 Kbit

4K x 16
Typical: 1.21
Worst: 2.13

Dual Port Sync. SRAM

16 - 8K
(Increment: 2X mux)

2 - 128
(Increment: 1)

4, 8, 16

32 bit - 512 Kbit

4K x 16
Typical: 1.28
Worst: 2.26


Virtual Silicon 0.18um Library
Standard Cell

  • 500+ high performance standard cells
  • 11-track cell architecture, performance optimized for 200~700 MHz
  • Average cell density of 90K gates/sq.mm
  • Multiple drive strengths
  • Layout using metal 1 only
  • Scan version of every flip-flop available
  • Fully contacted well ties
  • Accurate modeling and characterization for timing and power
  • Open architecture developers kit available

Inline and Staggered I/O

  • 375+ 3.3V & 3.3V/5VT I/O pads
  • Pad pitch: 60um (In-line), 40um (Staggered)
  • Multiple current drives up to 24mA
  • Input: Pull-up/pull-down resistor, pad keeper, normal/ Schmitt
  • Output and bi-directional with slew rate control
  • Silicon proven ESD and latch-up structures
  • Fully contacted well ties
  • Analog power pads, crystal pads
  • Open architecture developers kit available

PLL Compilers

  • Programmable input, output frequencies and duty cycle
  • Input frequency range: 20 MHz - 200 MHz
  • Output frequency range: 50MHz -900MHz
  • PLL module entirely located in the I/O pad rings
  • Dedicated analog power supply pins
  • Build-in ESD and latch-up protection structures

Single Port Synchronons SRAM and Two Port Register File Compilers

  • Synchronous reads/writes
  • Static design with zero standby current
  • Byte write capability
  • Routable over the core with higher metal layer
  • Ability to compile to multiple aspect ratio
  • AScan and BIST support

Architecture

Word

Bit

Mux

Size

Access Time (ns)

Single Port Sync. SRAM

32 - 4K
(Increment: 2X mux)

2 - 128
(Increment: 1)

2, 4,
8, 16

32 bit - 256 Kbit

4K x 16
Typical: 1.80
Worst: 3.36

Two Port Register File

8 - 1K
(Increment: 2X mux)

4 - 128
(Increment: 1)

1, 2, 4

32 bit - 64 Kbit

128K x 64
Typical: 1.37
Worst: 2.38


Faraday 0.18um GII Library
Standard Cell

  • 400+ high performance standard cells
  • 9-track cell architecture
  • Average cell density >120K gates/sq.mm
  • Optimized multiple drive strengths
  • High porosity and routability
  • Scan version of every flip-flop available
  • Ultra low power cell available
  • Gated input for preventing leakage
  • Fully tool models support

Inline and Staggered I/O

  • 1.8V, 3.3V I/O pads
  • 1.8V/2.5VT, 3.3V/5VT I/O pads
  • Support over 500+ IO Functions
  • Pad pitch: 65um (In-line), 40um (Stagger)
  • Programmable current drives and slew rate control from 2mA to 16mA
  • Programmable pull-up/pull-down resistor, normal/ Schmitt trigger
  • Provide 90+ programming features in one I/O
  • In-line to staggered I/O corner available

Single Port SRAM, Dual Port SRAM, One Port Register File, Two Port Register File, and Via2 ROM Compilers

  • Synchronous reads/writes
  • Static design with zero standby current
  • Byte write capability
  • Provides both high speed and low power SRAMs
  • Ability to compile to multiple aspect ratio
  • Scan and BIST support
  • Power port connections support
  • Zero hold time for inputs

Architecture

Word

Bit

Mux

Size

Access Time (ns)

Single Port
Sync. SRAM

64 - 64K
(Increment: 16 x mux)

1 - 128 (Increment: 1)

1, 2, 4,
8, 16

64 bit - 512 Kbit

4K x 16
Typical: 1.80
Worst: 3.1

Single Port Sync.
Register File

32 - 2K
(Increment: 2 x mux)

1 - 144 (Increment: 1)

2, 4, 8

32 bit - 72 Kbit

1K x 16
Typical: 1.63
Worst: 2.72

Dual Port Sync. SRAM

64 - 32K
(Increment: 16 x mux)

1 - 128 (Increment: 1)

1, 2,
4, 8

64 bit - 512 Kbit

4K x 16
Typical: 1.80
Worst: 3.1

Two Port Sync. Register File

4 - 2K
(Increment: 2 x mux)

2 - 144 (Increment: 1)

2, 4, 8

8 bit - 72 Kbit

1K x 64
Typical: 1.7
Worst: 2.8

Via2 ROM

128 - 128K
(Increment:128 x mux)

1 - 128 (Increment: 1)

1, 2,
4, 8,

128 bit - 2 Mbit

4K x 16
Typical: 2
Worst: 3.4


Faraday 0.18um LL Library
Standard Cell

  • 400+ high performance standard cells
  • 9-track cell architecture
  • Average cell density >120K gates/sq.mm
  • Optimized multiple drive strengths
  • High porosity and routability
  • Scan version of every flip-flop available
  • Ultra low power cell available
  • Gated input for preventing leakage
  • Fully tool models support

Inline and Staggered I/O

  • 1.8V, 3.3V I/O pads
  • 1.8V/2.5VT, 3.3V/5VT I/O pads
  • Support over 500+ IO Functions
  • Pad pitch: 65um (In-line), 40um (Stagger)
  • Programmable current drives and slew rate control from 2mA to 16mA
  • Programmable pull-up/pull-down resistor, normal/ Schmitt trigger
  • Provide 90+ programming features in one I/O
  • In-line to staggered I/O corner available

Single Port SRAM, Dual Port SRAM, Two Port Register File and Via1 ROM Compilers

  • Synchronous reads/writes
  • Static design with zero standby current
  • Byte write capability
  • Provides both high speed and low power SRAMs
  • Ability to compile to multiple aspect ratio
  • Scan and BIST support
  • Zero hold time for inputs

Architecture

Word

Bit

Mux

Size

Access Time (ns)

Single Port
Sync. SRAM

64 - 64K
(Increment: 16 x mux)

1 - 128 (Increment: 1)

1, 2, 4, 8, 16

64 bit - 512 Kbit

4K x 16
Typical: 2.70
Worst: 4.6

Dual Port Sync. SRAM

64 - 32K
(Increment: 16 x mux)

1 - 128 (Increment: 1)

1, 2,
4, 8,

64 bit - 512 Kbit

4K x 16
Typical: 2.80
Worst: 4.8

Two Port Sync. Register File

1 - 2K
(Increment: 1 x mux)

1 - 144 (Increment: 1)

1, 2,
4, 8

1 bit - 36 Kbit

1K x 16
Typical: 4.7
Worst: 8

Via1 ROM

256 - 128K
(Increment:256 x mux)

1 - 128 (Increment: 1)

1, 2,
4, 8,

256 bit - 2 Mbit

4K x 16
Typical: 3.8
Worst: 6.6


VeriSilicon 0.18um Library (HJTC 0.18um Logic 1P6M Salicide 1.8V/3.3V Process)
High-Density Standard Cell

  • Wide Variety of Cell Functions and Drive Strengths.
  • Process-Specific Optimization for High-Density, High-Speed, and Low-Power.
  • Engineered for Synthesizability and Routability.
  • Scan Flip-flops for Design for Testability Support.

I/O Cell

  • 3.3V I/O, 1.8V Core, 5V Tolerant.
  • Both Inline and Stagger Compatible IO Pads.
  • Configurable Input-Output and Skew Rate Control.
  • Robust ESD (>2000V) and Latch-up Immunity (±200 mA). Competitive Pad Pitch and Height.

Single-Port / Dual-Port SRAM Compilers

  • Ultra-High Density, High-speed, and Low-Power.
  • Fully Static Operation and Automatic Power Down.
  • Adaptive Self-time Delay for Fast Access Time.
  • Full Suite of Design Views and Models.

Diffusion ROM Compiler

  • Ultra-High Density, High-speed, and Low-Power.
  • Fully Static Operation and Automatic Power Down.
  • Automatic Code Implementation.
  • High Capacity Configuration.
  • Full Suite of Design Views and Models.

Two-Port Register File Compiler

  • Ultra-High Density, High-speed, and Low-Power.
  • Fully Static Operation and Automatic Power Down.
  • Adaptive Self-time Delay for Fast Access Time.
  • Full Suite of Design Views and Models.

Supported Design Tools

EDA Vendor

Tools

Cadence

Ambit, NC-Verilog, SoC Encounter, Silicon Ensemble-PKS, Dracula …

Synopsys

Design Compiler, Prime Time, Physical Compiler, DFT Compiler, TetraMax ATPG, Formality, Astro, Apollo, Hercules …

Mentor Graphics

Calibre, FastScan, DFTAdvisor, ModelSim…

Magma

Blast Fusion, Blast RTL …



Other Libraries

Virage Logic 0.18um Memory Compiler

HJTC
Process
Type

Word
Width
(bits/word)

Word
Depth
(words)

Max
Size
(K bits)

Max
Configuration

Aspect
Ratio
(Yes/No)

Bit/Byte
write
capability

Access Time(ns)

SP HD SRAM

GII

2 - 128

16 - 16K

32 - 512K

16Kx32

Yes: 4, 8, 16

Yes

No

DP HD SRAM

GII

2 - 128

16 - 8K

32 - 256K

8Kx32

Yes: 4, 8, 16

Yes

No

2P Register File

GII/LL

2 - 256

8 - 1024

16 - 16K

1Kx16

Yes: 1, 2, 4

Yes

No

ROM

GII/LL

8 - 64

256 - 64K

2K - 1M

64Kx16

Yes: 16, 32, 64

No

No

SP HS SRAM

GII/LL

2 - 256

16 - 16K

32 - 512K

16Kx32

4, 8, 16

Yes

No

DP HS SRAM

GII/LL

2 - 256

32 - 8K

64 - 256K

8Kx32

4, 8, 16

Yes

No

SP STAR
HD-4M
(SRAM with redundancy)

GII

8 - 256

128 - 64K

16K - 4M

64Kx64

Yes: 8, 16, 32

Yes

Yes

SP STAR
HS-512K (SRAM with redundancy)

GII

2 - 256

16 - 16K

32 - 512K

16Kx32

4, 8, 16

Yes

Yes

DP STAR
HS-512K
(SRAM with redundancy)

GII

2 - 256

32 - 8K

64 - 256K

8Kx32

4, 8, 16

Yes

Yes

T-CAM 32K

GII

16 - 64

16 - 512K

1K - 32K

512Kx64

1

No

No


Artisan 0.18um Library
Standard Cell

  • 1000+ High Performance standard cells
  • 9-track cell architecture
  • Average cell density of 73K gates/sq.mm
  • Multiple drive strengths
  • Silicon proven
  • Scan version of every flip-flop available
  • Compatible with mixed signal environment
  • Accurate timing and power models

In-line and staggered I/O

  • 3.3V/5VT
  • Pad pitch: 76.8um (In-line), 38.4um (Staggered)
  • Multiple current drives up to 16mA
  • Pull ups, Pull downs, switchable
  • Hysteresis
  • Built-in level shifting





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