Design & Reuse
Catalog of SIP Cores
System on Chip design resources
8768 IP
4751
10.0
USB 2.0 nanoPHY in GF (55nm)
The Synopsys USB 2.0 nanoPHY provides designers with a complete Physical Layer (PHY) IP solution, designed for low-power mobile and consumer applicati...
4752
10.0
USB 2.0 nanoPHY in TSMC (65nm, 55nm, 40nm)
The Synopsys USB 2.0 nanoPHY provides designers with a complete Physical Layer (PHY) IP solution, designed for low-power mobile and consumer applicati...
4753
10.0
USB 2.0 nanoPHY in UMC (65nm)
The Synopsys USB 2.0 nanoPHY provides designers with a complete Physical Layer (PHY) IP solution, designed for low-power mobile and consumer applicati...
4754
10.0
USB 2.0 picoPHY in GF (40nm, 28nm)
The Synopsys USB 2.0 picoPHY provides designers with a complete physical (PHY) layer IP solution, designed for low power mobile and consumer applicati...
4755
10.0
USB 2.0 picoPHY in TSMC (40nm, 28nm)
The Synopsys USB 2.0 picoPHY provides designers with a complete physical (PHY) layer IP solution, designed for low power mobile and consumer applicati...
4756
10.0
USB 2.0 picoPHY in UMC (40nm, 28nm)
The Synopsys USB 2.0 picoPHY provides designers with a complete physical (PHY) layer IP solution, designed for low power mobile and consumer applicati...
4757
10.0
USB 3.0 femtoPHY in GF (28nm, 12nm)
The Synopsys USB-C™ 3.0 and USB 3.0 femtoPHY IP provide designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer a...
4758
10.0
USB 3.0 femtoPHY in Samsung (14nm, 11nm, 10nm)
The Synopsys USB-C™ 3.0 and USB 3.0 femtoPHY IP provide designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer a...
4759
10.0
USB 3.0 femtoPHY in SMIC (28nm)
The Synopsys USB-C™ 3.0 and USB 3.0 femtoPHY IP provide designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer a...
4760
10.0
USB 3.0 femtoPHY in TSMC (28nm, 22nm, 16nm, 12nm)
The Synopsys USB-C™ 3.0 and USB 3.0 femtoPHY IP provide designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer a...
4761
10.0
USB 3.0 femtoPHY in UMC (28nm, 12nm)
The Synopsys USB-C™ 3.0 and USB 3.0 femtoPHY IP provide designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer a...
4762
10.0
USB 3.0 PHY in GF (65nm, 55nm, 40nm, 28nm)
The Synopsys USB-C™ 3.0 and USB 3.0 femtoPHY IP provide designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer a...
4763
10.0
USB 3.0 PHY in Samsung (28nm, 14nm)
The Synopsys USB-C™ 3.0 and USB 3.0 femtoPHY IP provide designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer a...
4764
10.0
USB 3.0 PHY in SMIC (110nm, 65nm, 40nm)
The Synopsys USB-C™ 3.0 and USB 3.0 femtoPHY IP provide designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer a...
4765
10.0
USB 3.0 PHY in UMC (65nm, 40nm)
The Synopsys USB-C™ 3.0 and USB 3.0 femtoPHY IP provide designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer a...
4766
10.0
USB 3.0 SSPHY in GF (22nm)
The Synopsys USB-C™ 3.0 and USB 3.0 femtoPHY IP provide designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer a...
4767
10.0
USB 3.1 PHY (10G/5G) in GF (22nm)
The Synopsys SuperSpeed 3.1 USB IP solution is based on the USB 3.0 specification from the USB Implementer Forum. The comprehensive USB 3.1 IP offerin...
4768
10.0
USB 3.1 PHY (10G/5G) in Samsung (14nm, 11nm, 10nm, 8nm, SF5, SF5A, SF4E)
The Synopsys SuperSpeed 3.1 USB IP solution is based on the USB 3.0 specification from the USB Implementer Forum. The comprehensive USB 3.1 IP offerin...
4769
10.0
USB-C 3.0 femtoPHY in Type-C in TSMC (28nm, 16nm, 12nm)
The Synopsys USB-C™ 3.0 and USB 3.0 femtoPHY IP provide designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer a...
4770
10.0
USB-C 3.1 SS/SSP PHY in Type-C in TSMC (16nm, 12nm, N7, N6, N5, N5A, N3A)
The Synopsys SuperSpeed 3.1 USB IP solution is based on the USB 3.0 specification from the USB Implementer Forum. The comprehensive USB 3.1 IP offerin...
4771
10.0
USB-C 3.1/DP TX PHY in GF (22nm)
The Synopsys SuperSpeed 3.1 USB IP solution is based on the USB 3.0 specification from the USB Implementer Forum. The comprehensive USB 3.1 IP offerin...
4772
10.0
USB-C 3.1/DP TX PHY in Samsung (14nm, 11nm, 5nm)
The Synopsys SuperSpeed 3.1 USB IP solution is based on the USB 3.0 specification from the USB Implementer Forum. The comprehensive USB 3.1 IP offerin...
4773
10.0
USB-C 3.1/DP TX PHY in TSMC (16nm, 12nm, N7, N6)
The Synopsys SuperSpeed 3.1 USB IP solution is based on the USB 3.0 specification from the USB Implementer Forum. The comprehensive USB 3.1 IP offerin...
4774
10.0
USB-C 3.2 DP/TX PHY ebdaux in Samsung (SF4A) for Automotive
The Synopsys USB-C 3.2/DisplayPort 1.4 IP solution consists of USB-C 3.2/DisplayPort 1.4 PHYs, USB-C 3.2/DisplayPort 1.4 controllers (Device, Host, or...
4775
10.0
USB-C 3.2 DP/TX PHY ebdaux in TSMC (N5, N4C)
The Synopsys USB-C 3.2/DisplayPort 1.4 IP solution consists of USB-C 3.2/DisplayPort 1.4 PHYs, USB-C 3.2/DisplayPort 1.4 controllers (Device, Host, or...
4776
10.0
USB-C 3.2 DP/TX PHY in GF (12nm)
The Synopsys USB-C 3.2/DisplayPort 1.4 IP solution consists of USB-C 3.2/DisplayPort 1.4 PHYs, USB-C 3.2/DisplayPort 1.4 controllers (Device, Host, or...
4777
10.0
USB-C 3.2 SS/SSP PHY in Type-C in Samsung (SF4X, SF4E, SF2)
The Synopsys SuperSpeed 3.2 USB IP solution is based on the USB 3.2 specification from the USB Implementer Forum. The USB 3.2 IP offering includes con...
4778
10.0
SSCG PLL - TSMC CLN3E
Analog Bits’ PCIe REF PLL addresses stringent performance requirements in high-speed serial link applications that support the PCI Express Gen4 and Ge...
4779
10.0
SSCG PLL - TSMC CLN3P
Analog Bits’ PCIe REF PLL addresses stringent performance requirements in high-speed serial link applications that support the PCI Express Gen4 and Ge...
4780
10.0
TSMC CLN16FFCLL 16nm Clock Generator PLL - 800MHz-4000MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
4781
10.0
TSMC CLN28HPC 28nm Clock Generator PLL - 175MHz-875MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
4782
10.0
TSMC CLN28HPC 28nm Clock Generator PLL - 350MHz-1750MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
4783
10.0
TSMC CLN28HPC 28nm Clock Generator PLL - 700MHz-3500MHz
The Clock Generator PLL is designed to multiply an input clock by an integer between 1 and 4096. It does not provide any deskew functionality. It cont...
4784
10.0
TSMC CLN28HPC 28nm DDR DLL - 150MHz-750MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
4785
10.0
TSMC CLN28HPC 28nm DDR DLL - 200MHz-1000MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
4786
10.0
TSMC CLN28HPC 28nm DDR DLL - 316MHz-1580MHz
The DDR DLL uses a reference clock to establish a time base in order to delay arbitrary (nonperiodic) strobe signals by precise fractions of the clock...
4787
10.0
TSMC CLN28HPC 28nm Deskew PLL - 175MHz-875MHz
The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...
4788
10.0
TSMC CLN28HPC 28nm Deskew PLL - 350MHz-1750MHz
The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...
4789
10.0
TSMC CLN28HPC 28nm Deskew PLL - 700MHz-3500MHz
The Deskew PLL is designed to eliminate the skew between the output of a clock distribution tree and a clock reference. The PLL can also multiply the ...
4790
10.0
TSMC CLN28HPC 28nm General Purpose PLL - 350MHz-1750MHz
The General Purpose PLL is a wide range clock multiplier with deskew capability. It contains a 1-16 divider at the reference clock input, a 1-64 divid...
4791
10.0
TSMC CLN28HPC 28nm Multi Phase DLL - 175MHz-875MHz
The Multi Phase DLL is designed for high-speed interface applications. The DLL generates precise multi-phase clocks directly from the reference clock....
4792
10.0
TSMC CLN28HPC 28nm Multi Phase DLL - 350MHz-1750MHz
The Multi Phase DLL is designed for high-speed interface applications. The DLL generates precise multi-phase clocks directly from the reference clock....
4793
10.0
TSMC CLN28HPC 28nm Multi Phase DLL - 700MHz-3500MHz
The Multi Phase DLL is designed for high-speed interface applications. The DLL generates precise multi-phase clocks directly from the reference clock....
4794
10.0
TSMC CLN28HPC 28nm Spread Spectrum PLL - 150MHz-750MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
4795
10.0
TSMC CLN28HPC 28nm Spread Spectrum PLL - 300MHz-1500MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
4796
10.0
TSMC CLN28HPC 28nm Spread Spectrum PLL - 600MHz-3000MHz
The Spread Spectrum PLL is designed to multiply an input clock by a fixed-point number between 92 and 184 with frequency spreading capability suitable...
4797
10.0
DSP-enhanced ARC EMxD and HS4xD processors provide combined RISC + DSP processing for computation intensive applications
Synopsys has a long history of working with DSP customers to meet the ever-increasing computation requirements, offering lowest power consumption for ...
4798
10.0
Xtal Oscillator - TSMC CLN3A
High end consumer and professional applications require crystals with a minimum number of external components. These applications typically operate un...
4799
10.0
Xtal Oscillator - TSMC CLN4P
High end consumer and professional applications require crystals with a minimum number of external components. These applications typically operate un...
4800
10.0
Multi-protocol, Low Power Serdes - TSMC 28 CLN28HPL
Analog Bits Programmable SERDES provides a Physical Media Attachment (PMA) Layer capable of signaling at multiple data rates and supports multi-protoc...