Design & Reuse
5416 IP
851
10.0
DesignWare Library contains the essential infrastructure IP for design and verification
The DesignWare Library contains the essential infrastructure IP for design and verification including datapath components, AMBA On-Chip Bus and microc...
852
10.0
UFS Host Controller IP
Synopsys MIPI® IP solution enables low-power and high-performance interface between system-on-chips (SoCs), application processors, baseband processor...
853
10.0
AHB Multi Fabric
The AHB Fabric provides the necessary infrastructure to connect up to 16 shared AHB Slaves to up to 16 AHB-Lite Bus Masters. The off-the-self configu...
854
10.0
AHB QSPI Controller with Execute in Place (XIP)
The Quad Serial Peripheral Interface (OSPI) core is a serial data link (SPI) master which controls an external serial FLASH device. Reading and wri...
855
10.0
Thermal Diode with Base Pin, TSMC 16FFC
Thermal diodes provide a useful means for monitoring junction temperature on die and are typically independently powered from the rest of the SoC. The...
856
10.0
Thermal Diode with Base Pin, TSMC N3
Thermal diodes provide a useful means for monitoring junction temperature on die and are typically independently powered from the rest of the SoC. The...
857
10.0
Thermal Diode with Base Pin, TSMC N3EP
Thermal diodes provide a useful means for monitoring junction temperature on die and are typically independently powered from the rest of the SoC. The...
858
10.0
Thermal Diode with Base Pin, TSMC N4P
Thermal diodes provide a useful means for monitoring junction temperature on die and are typically independently powered from the rest of the SoC. The...
859
10.0
Thermal Diode with Base Pin, TSMC N5
Thermal diodes provide a useful means for monitoring junction temperature on die and are typically independently powered from the rest of the SoC. The...
860
10.0
Thermal Diode with Base Pin, TSMC N6
Thermal diodes provide a useful means for monitoring junction temperature on die and are typically independently powered from the rest of the SoC. The...
861
10.0
Chip-to-Chip IO Buffer - TSMC CLN4P
Analog Bits’ Chip-to-Chip IO Buffer is a general purpose IO for medium-speed per lane transactions in ultra-short reach environments, using single-end...
862
10.0
Chip-to-Chip IO Buffer - TSMC CLN5
Analog Bits’ Chip-to-Chip IO Buffer is a general purpose IO for medium-speed per lane transactions in ultra-short reach environments, using single-end...
863
10.0
Chip-to-Chip IO Buffer - TSMC CLN5A
Analog Bits’ Chip-to-Chip IO Buffer is a general purpose IO for medium-speed per lane transactions in ultra-short reach environments, using single-end...
864
10.0
Chip-to-Chip IO Buffer - TSMC CLN6FF
Analog Bits’ Chip-to-Chip IO Buffer is a general purpose IO for medium-speed per lane transactions in ultra-short reach environments, using single-end...
865
10.0
Chip-to-Chip IO Buffer - TSMC CLN7FF
Analog Bits’ Chip-to-Chip IO Buffer is a general purpose IO for medium-speed per lane transactions in ultra-short reach environments, using single-end...
866
10.0
Library of mathematical and floating point (FP) components
Optimized for efficient hardware implementation, the Synopsys Foundation Cores include a library of mathematical and floating point (FP) components th...
867
10.0
Wide Range Frac-N/SSCG PLL - TSMC 7FF
The programmable Fractional-N divider allows the PLL to lock to an incoming clock source and produce an output clock with a non-integer multiplication...
868
10.0
Wide Range Integer PLL - GLOBALFOUNDRIES 14LPP
Analog Bits Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de-skew and non-integer clock multiplication to prog...
869
10.0
Wide Range Integer PLL - Samsung 14LPP
Analog Bits Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de-skew and non-integer clock multiplication to prog...
870
10.0
Wide Range Integer PLL - TSMC 12 12FFC
The programmable Fractional-N divider allows the PLL to lock to an incoming clock source and produce an output clock with a non-integer multiplication...
871
10.0
Wide Range Integer PLL - TSMC 16 16FFC
Analog Bits Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de-skew and non-integer clock multiplication to prog...
872
10.0
Wide Range Integer PLL - TSMC 16 CLN16FF+GL
Analog Bits Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de-skew and non-integer clock multiplication to prog...
873
10.0
Wide Range Integer PLL - TSMC 16 CLN16FF+LL
Analog Bits Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de-skew and non-integer clock multiplication to prog...
874
10.0
Wide Range Integer PLL - TSMC 22 CLN22ULL/ULP
Analog Bits Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de-skew and non-integer clock multiplication to prog...
875
10.0
Wide Range Integer PLL - TSMC 28 CLN28HPC
Analog Bits Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de-skew and non-integer clock multiplication to prog...
876
10.0
Wide Range Integer PLL - TSMC 28 CLN28HPC+
Analog Bits Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de-skew and non-integer clock multiplication to prog...
877
10.0
Wide Range Integer PLL - TSMC 28 CLN28HPM
Analog Bits Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de-skew and non-integer clock multiplication to prog...
878
10.0
Wide Range Integer PLL - TSMC 40 CLN40G
Analog Bits Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de-skew and non-integer clock multiplication to prog...
879
10.0
Wide Range Integer PLL - TSMC 7FF
Analog Bits Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de-skew and non-integer clock multiplication to prog...
880
10.0
Wide Range Multi-Output PLL - TSMC CLN7FF
Analog Bits’ Wide Range Multi-Output PLL addresses a large portfolio of applications, ranging from simple clock de-skew and non-integer clock multipli...
881
10.0
Wide Range PLL - GLOBALFOUNDRIES 65 65G
Analog Bits Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de-skew and non-integer clock multiplication to prog...
882
10.0
Wide Range PLL - TSMC 6FF
Analog Bits’ Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de-skew and non-integer clock multiplication to pro...
883
10.0
Wide Range PLL - TSMC CLN3P
Analog Bits’ Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de- skew and non-integer clock multiplication to p...
884
10.0
Wide Range PLL - TSMC N5
Analog Bits’ Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de-skew and non-integer clock multiplication to pro...
885
10.0
Wide Range Programable Integer PLL - TSMC CLN2P
Analog Bits’ Wide Range PLL addresses a large portfolio of applications, ranging from simple clock de- skew and non-integer clock multiplication to p...
886
10.0
Die-to-Die Controller IP
The Synopsys Die-to-Die Controller IP, optimized for latency, bandwidth, power and area, enables efficient inter-die connectivity in server, AI accele...
887
10.0
Die-to-Die, 112G Ultra-Extra Short Reach PHY in GF (12nm)
The Synopsys XSR PHY IP for 112Gbps per lane die-to-die connectivity enables high-bandwidth ultra and extra short reach interfaces in multi-chip modul...
888
10.0
Die-to-Die, 112G Ultra-Extra Short Reach PHY in TSMC (12nm, N7, N6, N5)
The Synopsys XSR PHY IP for 112Gbps per lane die-to-die connectivity enables high-bandwidth ultra and extra short reach interfaces in multi-chip modul...
889
10.0
Differential Clock Receiver - TSMC CLN2P
Analog Bits’ Differential Clock Receiver macro addresses a large portfolio of applications. The Receiver is designed for digital logic processes and u...
890
10.0
Differential Clock Receiver - TSMC CLN3A
Analog Bits’ Differential Clock Receiver macro addresses a large portfolio of applications. The Receiver is designed for digital logic processes and u...
891
10.0
Differential Clock Receiver - TSMC CLN3E
Analog Bits’ Differential Clock Receiver macro addresses a large portfolio of applications. The Receiver is designed for digital logic processes and u...
892
10.0
Differential Clock Receiver to CML - TSMC CLN2P
Analog Bits’ Differential Clock Receiver to CML macro is a receiver including on-chip termination, and addresses a large portfolio of applications req...
893
10.0
Differential Clock Receiver to CML - TSMC CLN3A
Analog Bits’ Differential Clock Receiver to CML macro is a receiver including on-chip termination, and addresses a large portfolio of applications req...
894
10.0
Differential Clock Receiver to CML - TSMC CLN3E
Analog Bits’ Differential Clock Receiver to CML macro is a receiver including on-chip termination, and addresses a large portfolio of applications req...
895
10.0
Differential Clock Receiver to CML - TSMC CLN6FF
Analog Bits’ Differential Clock Receiver to CML macro is a receiver including on-chip termination, and addresses a large portfolio of applications req...
896
10.0
Differential Clock Reciever - TSMC CLN3P
Analog Bits’ Differential Clock Receiver macro addresses a large portfolio of applications. The Receiver is designed for digital logic processes and u...
897
10.0
Differential Clock Reciever to CML - TSMC CLN3P
Analog Bits’ Differential Clock Receiver to CML macro is a receiver including on-chip termination, and addresses a large portfolio of applications req...
898
10.0
Differential Output Buffer - TSMC CLN3P
Analog Bits’ Differential Output Driver macros provide a low noise, high performance differential output clock. The output driver design implements a...
899
10.0
Differential Output Buffer - TSMC 6FF
Analog Bits’ Differential Output Driver macros provide a low noise, high performance differential output clock. The output driver design implements a ...
900
10.0
Differential Output Buffer - TSMC CLN3E
Analog Bits’ Differential Output Driver macros provide a low noise, high performance differential output clock. The output driver design implements a ...