Design & Reuse
8685 IP
4701
10.0
Droop Detector - TSMC CLN4P
Analog Bits’ Droop Detector macro addresses SOC power supply and other voltage droop monitoring needs in a fully integrated easy-to-use macro. The Dro...
4702
10.0
tRoot Fx Hardware Secure Modules: Programmable Root of Trust
Synopsys tRoot™ Hardware Secure Modules (HSMs) with Root of Trust enable connected devices to securely and uniquely identify and authenticate themselv...
4703
10.0
tRoot Vx Hardware Secure Modules
Synopsys IP tRoot™ Hardware Secure Modules (HSMs) with Root of Trust enable connected devices to securely and uniquely identify and authenticate thems...
4704
10.0
Crossbars Interconnect
An interconnect component connects initiators and targets in a system. A single initiator system simply requires a decoder and multiplexor, which are ...
4705
10.0
True Random Number Generator for NIST SP 800-90c
The security strength of many systems and applications is dependent on the quality of random number generators. Many cryptographic operations require ...
4706
10.0
True Random Number Generators
The security strength of many systems and applications is dependent on the quality of random number generators. Many cryptographic operations require ...
4707
10.0
Crystal Oscillator - TSMC 6FF
High end consumer and professional applications require crystals with a minimum number of external components. These applications typically operate un...
4708
10.0
Crystal Oscillator - TSMC N5
High end consumer and professional applications require crystals with a minimum number of external components. These applications typically operate un...
4709
10.0
Crystal Oscillator Pad - TSMC 7FF
High end consumer and professional applications require crystals with a minimum number of external components. These applications typically operate un...
4710
10.0
Crystal-less Oscillator - TSMC 12FFC
Analog Bits Crystal-less low power oscillator addresses a variety of applications that include low power consumer and professional applications that r...
4711
10.0
Crystal-less Oscillator - TSMC CLN16FFC
Analog Bits Crystal-less low power oscillator addresses a variety of applications that include low power consumer and professional applications that r...
4712
10.0
USB 2.0 femtoPHY in GF (22nm) for Automotive Grade 1
The Synopsys IP USB 2.0 femtoPHY provides designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer applications su...
4713
10.0
USB 2.0 femtoPHY in GF (28nm, 22nm, 12nm)
The Synopsys IP USB 2.0 femtoPHY provides designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer applications su...
4714
10.0
USB 2.0 femtoPHY in Samsung (14nm, 11nm, 8nm, 7nm, 5nm, SF4X, SF4A)
The Synopsys IP USB 2.0 femtoPHY provides designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer applications su...
4715
10.0
USB 2.0 femtoPHY in SMIC (40nm, 28nm)
The Synopsys IP USB 2.0 femtoPHY provides designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer applications su...
4716
10.0
USB 2.0 femtoPHY in TSMC (16nm, N7) for Automotive
The Synopsys IP USB 2.0 femtoPHY provides designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer applications su...
4717
10.0
USB 2.0 femtoPHY in TSMC (40nm, 28nm, 22nm, 16nm, 12nm, 10nm, N7, N6, N6C, N5, N3P)
The Synopsys IP USB 2.0 femtoPHY provides designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer applications su...
4718
10.0
USB 2.0 femtoPHY in UMC (28nm, 22nm)
The Synopsys IP USB 2.0 femtoPHY provides designers with a complete physical (PHY) layer IP solution for low-power mobile and consumer applications su...
4719
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...
4720
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...
4721
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...
4722
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...
4723
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...
4724
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...
4725
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...
4726
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...
4727
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...
4728
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...
4729
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...
4730
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...
4731
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...
4732
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...
4733
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...
4734
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...
4735
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...
4736
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...
4737
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...
4738
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...
4739
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...
4740
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...
4741
10.0
USB-C 3.1/DP TX PHY in TSMC (16nm, 12nm, N7, N6, N6C)
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...
4742
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...
4743
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...
4744
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...
4745
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...
4746
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...
4747
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...
4748
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...
4749
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...
4750
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...