Design & Reuse
5377 IP
951
10.0
High Performance 20GHz C2C PLL - TSMC CLN6FF
Analog Bits’ High Speed PLL creates a high speed clock with good duty cycle and jitter characteristics useful for high speed, source synchronous inter...
952
10.0
High Performance 20GHz PLL - TSMC CLN4P
Analog Bits’ High Speed PLL creates a high speed clock with good duty cycle and jitter characteristics useful for high speed, source synchronous inter...
953
10.0
High Performance 20GHz PLL - TSMC CLN5A
Analog Bits’ High Speed PLL creates a high speed clock with good duty cycle and jitter characteristics useful for high speed, source synchronous inter...
954
10.0
High Precision Temp Sensor - TSMC CLN2P
Analog Bits' High Accuracy Thermometer is a highly integrated macro for monitoring temperature variation on-chip, allowing very high precision even in...
955
10.0
High Precision Temp Sensor - TSMC CLN3A
Analog Bits' High Accuracy Thermometer is a highly integrated macro for monitoring temperature variation on-chip, allowing very high precision even in...
956
10.0
High Precision Temp Sensor - TSMC CLN3E
Analog Bits' High Accuracy Thermometer is a highly integrated macro for monitoring temperature variation on-chip, allowing very high precision even in...
957
10.0
High Precision Temp Sensor - TSMC CLN5A
Analog Bits' High Accuracy Thermometer is a highly integrated macro for monitoring temperature variation on-chip, allowing very high precision even in...
958
10.0
High Speed 20GHz PLL - TSMC CLN6FF
Analog Bits’ High Speed PLL creates a high speed clock with good duty cycle and jitter characteristics useful for high speed, source synchronous inter...
959
10.0
High Speed PLL - TSMC N4P
Analog Bits’ High Speed 20GHz PLL creates a high speed clock with good duty cycle and jitter characteristics useful for high speed, source synchronous...
960
10.0
High Speed PLL - TSMC N5
Analog Bits’ High Speed 20GHz PLL creates a high speed clock with good duty cycle and jitter characteristics useful for high speed, source synchronous...
961
10.0
High Speed PLL - TSMC N5A
Analog Bits’ High Speed 20GHz PLL creates a high speed clock with good duty cycle and jitter characteristics useful for high speed, source synchronous...
962
10.0
High Speed PLL - TSMC N5A
Analog Bits’ High Speed 20GHz PLL creates a high speed clock with good duty cycle and jitter characteristics useful for high speed, source synchronous...
963
10.0
High Speed PLL CML to Complementary - TSMC CLN3P
Analog Bits’ High Speed 20GHz PLL creates a high speed clock with good duty cycle and jitter characteristics useful for high speed, source synchronous...
964
10.0
TileLink Target
TileLink is a chip-scale connection standard that enables many masters to have synchronised memory mapped access to memory and other slave devices. Ti...
965
10.0
LIN Bus Master/Slave Controller Core
Implements a communication controller that transmits and receives complete Local Interconnect Network (LIN) frames to perform serial communication acc...
966
10.0
MIPI C-PHY v1.2 D-PHY v2.1 RX 2 trios/2 Lanes in TSMC (16nm) for Automotive
Synopsys’ integrated C-PHY/D-PHY IP enables high-performance, low-power interface to SoCs, application processors, baseband processors, and peripheral...
967
10.0
MIPI C-PHY v1.2 D-PHY v2.1 RX 3 trios/4 Lanes in TSMC (16nm, N7) for Automotive
Synopsys’ integrated C-PHY/D-PHY IP enables high-performance, low-power interface to SoCs, application processors, baseband processors, and peripheral...
968
10.0
MIPI C-PHY v1.2 D-PHY v2.1 TX 2 trios/2 Lanes in TSMC (16nm) for Automotive
Synopsys’ integrated C-PHY/D-PHY IP enables high-performance, low-power interface to SoCs, application processors, baseband processors, and peripheral...
969
10.0
MIPI C-PHY v1.2 D-PHY v2.1 TX 3 trios/4 Lanes in TSMC (16nm, N7, N5A, N3A)
Synopsys’ integrated C-PHY/D-PHY IP enables high-performance, low-power interface to SoCs, application processors, baseband processors, and peripheral...
970
10.0
MIPI C-PHY v2.0 D-PHY v2.1 RX 2 trios/2 Lanes in TSMC (N5A, N3A)
Synopsys’ integrated C-PHY/D-PHY IP enables high-performance, low-power interface to SoCs, application processors, baseband processors, and peripheral...
971
10.0
MIPI D-PHY TSMC 130nm
Arasan delivers you a MIPI D-PHY in the process node and lane configuration you need, conforming to your specific design constraints, with a complete ...
972
10.0
MIPI D-PHY TSMC 28nm HPC+ @ 2.5Ghz
The Arasan’s MIPI D-PHY Analog Transceiver IP Core is fully compliant to the D-PHY specification version 1.1. It supports the MIPI® Camera Serial Inte...
973
10.0
MIPI D-PHY Tx-Only 2 Lanes in TSMC (16nm, N7) for Automotive
Synopsys’ IP D-PHY IP enables high-performance, low-power interface to SoCs, application processors, baseband processors, and peripheral devices for m...
974
10.0
MIPI D-PHY Tx-Only 4 Lanes in TSMC (16nm, N7) for Automotive
Synopsys’ IP D-PHY IP enables high-performance, low-power interface to SoCs, application processors, baseband processors, and peripheral devices for m...
975
10.0
MIPI DSI-2 Transmit Controller v1.0
The Arasan DSI-2 Device Controller IP is designed to provide MIPI DSI-2 1.0 compliant high speed serial connectivity for mobile host processors using ...
976
10.0
MIPI I3C Basic Secondary Controller
The I3C-SC core implements a versatile MIPI® Improved Inter Integrated Circuit (I3C) Secondary Controller core compliant with the latest MIPI I3C Basi...
977
10.0
MIPI I3C PHY I/O
Arasan’s MIPI I3CⓇ PHY I/O IP, in compliance with MIPI I3CⓇ specifications v1.1. Arasan’s MIPI I3CⓇ PHY IP is part of Arasan’s Total IP Solution for M...
978
10.0
MIPI M-PHY Designed For TSMC 28nm
ACS-AIP-MPHY-28HPM MIPI Specification Version 3.0 is a low pin count, power efficient, inter-chip serial interface with high bandwidth capabilities. A...
979
10.0
MIPI M-PHY G4 Designed For TSMC 28nm HPC+
ACS-AIP-MPHY-28HPC+ MIPI Specification Version 4.1 is a low pin count, power efficient, inter-chip serial interface with high bandwidth capabilities. ...
980
10.0
Wishbone Target
The Wishbone System-on-Chip (SoC) Interconnection Architecture for Portable IP Cores is a versatile design approach for semiconductor IP cores. Its go...
981
10.0
Distributed Thermal Sensor (DTS) Deep NWELL, TSMC N3
The highly granular DTS offers a significant area reduction in comparison to some standard in-chip thermal sensor solutions and supports high accuracy...
982
10.0
Distributed Thermal Sensor (DTS) Deep NWELL, TSMC N3EP
The highly granular DTS offers a significant area reduction in comparison to some standard in-chip thermal sensor solutions and supports high accuracy...
983
10.0
Distributed Thermal Sensor (DTS) Deep NWELL, TSMC N4P
The highly granular DTS offers a significant area reduction in comparison to some standard in-chip thermal sensor solutions and supports high accuracy...
984
10.0
Distributed Thermal Sensor (DTS) Deep NWELL, TSMC N5
The highly granular DTS offers a significant area reduction in comparison to some standard in-chip thermal sensor solutions and supports high accuracy...
985
10.0
Distributed Thermal Sensor (DTS) Non Deep NWELL
The highly granular DTS offers a significant area reduction in comparison to some standard in-chip thermal sensor solutions and supports high accuracy...
986
10.0
Distributed Thermal Sensor (DTS) Non Deep NWELL
The highly granular DTS offers a significant area reduction in comparison to some standard in-chip thermal sensor solutions and supports high accuracy...
987
10.0
Distributed Thermal Sensor (DTS) Non Deep NWELL TSMC N6
The highly granular DTS offers a significant area reduction in comparison to some standard in-chip thermal sensor solutions and supports high accuracy...
988
10.0
Distributed Thermal Sensor (DTS) Non-Deep NWELL, TSMC N3
The highly granular DTS offers a significant area reduction in comparison to some standard in-chip thermal sensor solutions and supports high accuracy...
989
10.0
Distributed Thermal Sensor (DTS) Non-Deep NWELL, TSMC N3EP
The highly granular DTS offers a significant area reduction in comparison to some standard in-chip thermal sensor solutions and supports high accuracy...
990
10.0
Distributed Thermal Sensor (DTS) Non-Deep NWELL, TSMC N4P
The highly granular DTS offers a significant area reduction in comparison to some standard in-chip thermal sensor solutions and supports high accuracy...
991
10.0
Distributed Thermal Sensor (DTS) Non-Deep NWELL, TSMC N5
The highly granular DTS offers a significant area reduction in comparison to some standard in-chip thermal sensor solutions and supports high accuracy...
992
10.0
Glitch Detector - TSMC CLN3A
Analog Bits’ Glitch Detector macro comprehensively addresses typical SOC power supply and other voltage glitch monitoring needs in a fully integrated ...
993
10.0
Glitch Detector - TSMC CLN3E
Analog Bits’ Glitch Detector macro comprehensively addresses typical SOC power supply and other voltage glitch monitoring needs in a fully integrated ...
994
10.0
Glitch Detector - TSMC CLN3P
Analog Bits’ Glitch Detector macro comprehensively addresses typical SOC power supply and other voltage glitch monitoring needs in a fully integrated ...
995
10.0
Glitch Detector - TSMC CLN4P
Analog Bits’ Glitch Detector macro comprehensively addresses typical SOC power supply and other voltage glitch monitoring needs in a fully integrated ...
996
10.0
Glitch Detector - TSMC CLN5A
Analog Bits’ Glitch Detector macro comprehensively addresses typical SOC power supply and other voltage glitch monitoring needs in a fully integrated ...
997
10.0
Glitch Detector - TSMC N5
Analog Bits’ Glitch Detector macro comprehensively addresses typical SOC power supply and other voltage glitch monitoring needs in a fully integrated ...
998
10.0
Ultra High Performance AES-XTS/ECB Core
The proliferation and expansion of connected devices, connectivity infrastructure, cloud computing, and artificial intelligence is driving for increas...
999
10.0
Ultra High-Performance AES-GCM/CTR IP
The proliferation and expansion of connected devices, connectivity infrastructure, cloud computing, and artificial intelligence is driving for increas...
1000
10.0
AMBA AHB Target
AMBA AHB is a bus interface designed for high-performance synthesizable applications. It specifies the interface between components such as initiator ...