Design & Reuse
5351 IP
851
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...
852
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...
853
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...
854
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...
855
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...
856
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...
857
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...
858
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...
859
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...
860
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...
861
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...
862
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...
863
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...
864
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...
865
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...
866
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...
867
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...
868
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 ...
869
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...
870
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...
871
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...
872
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 ...
873
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...
874
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...
875
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...
876
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. ...
877
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...
878
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...
879
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...
880
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...
881
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...
882
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...
883
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...
884
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...
885
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...
886
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...
887
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...
888
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...
889
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 ...
890
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 ...
891
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 ...
892
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 ...
893
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 ...
894
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 ...
895
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...
896
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...
897
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 ...
898
10.0
AMBA APB Target
Advanced Peripheral Bus (APB) is one of the Advanced Microcontroller Bus Architecture (AMBA) family protocols. It is a low-cost interface that is desi...
899
10.0
AMBA AXI Target
The "advanced extensible interface" (AXI) bus is a high-performance parallel bus that connects on-chip peripheral circuits (or IP blocks) to processor...
900
10.0
VME System Controller with AXI4 compliant user interface
The VMESCmodule2 is a VME System Controller core designed for FPGA and ASIC integrations. The core contains VME Slave and Master functions as well as ...