The agileDSCL is a compact digital standard cell library customizable for specific foundries and processes, and optimized for low-power, ultra-low-leakage, high-density or high-speed applications.
It provides a selection of standard cells with functionalities essential to implement digital designs, with additional power management library to support the implementation of low-power designs.
Please contact Agile Analog to discuss specialized libraries
Agile Analog designs are based on tried and tested architectures to ensure reliability and functionality. Our design methodology is programmatic, systematic and repeatable leading to analog IP that is more verifiable, more robust and more reliable.
Our methodology also allows us to quickly re-target our IP to different process options. We support all the major foundries including TSMC, GlobalFoundries, Samsung Foundry and SMIC as well as other IC foundries and manufacturers. Please contact Agile Analog for further information.
Digital Cell Library TSMC
Overview
Key Features
- Compact standard cell library targeting a wide range of foundries and processes
- Customized for low-power, ultra-low-leakage, high density or high-speed applications with choices of:
- Multiple VT and channel length
- Thick-Oxide based cells
- Various track heights
- Power Management library for low-power designs
- Timing models for customizable range of PVT
- High Quality library with class leading validation and models compatible with industry standard tools
Benefits
- Optimized for PPA targets / DFM
- DFM-optimized
- Customization
- Agile Analog’s COMPOSA tool enables efficient creation of libraries for specific foundries, processes, and cell architectures.
- Possibility to generate models at customized PVT corners
Block Diagram
Applications
- IoT, Security, Automotive, AI, SoCs, ASICs
Deliverables
- Datasheet
- Testing and Integration Guide
- Verilog Models
- Floorplan (LEF)
- Timing models (LIB)
- Netlist (CDL)
- Layout (GDS)
- Physical Verification Report
- Design Report
Technical Specifications
Foundry, Node
TSMC
TSMC
Pre-Silicon:
3nm
,
4nm
,
5nm
,
6nm
,
7nm
,
10nm
,
12nm
,
16nm
,
20nm
,
22nm
,
28nm
,
28nm
HP
,
28nm
HPC
,
28nm
HPCP
,
28nm
HPL
,
28nm
HPM
,
28nm
LP
,
40nm
G
,
40nm
LP
,
45nm
GS
,
45nm
LP
,
55nm
FL
,
55nm
G
,
55nm
GP
,
55nm
LP
,
55nm
NF
,
55nm
ULP
,
55nm
ULPEF
,
55nm
UP
,
65nm
G
,
65nm
GP
,
65nm
LP
,
80nm
,
80nm
GT
,
80nm
HS
,
85nm
,
90nm
FS
,
90nm
FT
,
90nm
G
,
90nm
GOD
,
90nm
GT
,
90nm
LP
,
90nm
zzz
,
110nm
G
,
110nm
HV
,
110nm
LVP
,
130nm
,
130nm
BCD
,
130nm
BCD+
,
130nm
G
,
130nm
LP
,
130nm
LV
,
130nm
LVOD
,
150nm
G
,
150nm
LV
,
160nm
G
,
160nm
LP
,
180nm
,
180nm
E
,
180nm
ELL
,
180nm
FG
,
180nm
G
,
180nm
LP
,
180nm
LV
,
180nm
ULL
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