Design & Reuse
5377 IP
701
11.0
NVM OTP NeoBit in Fujitsu (180nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
702
11.0
NVM OTP NeoBit in GLOBALFOUNDRIES (350nm, 250nm, 180nm, 160nm, 150nm, 130nm, 110nm, 65nm, 55nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
703
11.0
NVM OTP NeoBit in Grace (180nm, 160nm, 130nm, 110nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
704
11.0
NVM OTP NeoBit in GTA (150nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
705
11.0
NVM OTP NeoBit in HJTC (180nm, 160nm, 110nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
706
11.0
NVM OTP NeoBit in Huali (55nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
707
11.0
NVM OTP NeoBit in JSC (130nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
708
11.0
NVM OTP NeoBit in MagnaChip (350nm, 180nm, 150nm, 130nm, 110nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
709
11.0
NVM OTP NeoBit in Maxchip (180nm, 160nm, 150nm, 110nm, 90nm, 80nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
710
11.0
NVM OTP NeoBit in NEXCHIP (150nm, 110nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
711
11.0
NVM OTP NeoBit in Samsung (130nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
712
11.0
NVM OTP NeoBit in SHARP (180nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
713
11.0
NVM OTP NeoBit in Silterra (180nm, 160nm, 130nm, 110nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
714
11.0
NVM OTP NeoBit in SKHYNIX (180nm, 130nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
715
11.0
NVM OTP NeoBit in SMIC (350nm, 180nm, 160nm, 130nm, 110nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
716
11.0
NVM OTP NeoBit in TSMC (350nm, 250nm, 180nm, 160nm, 130nm, 110nm, 90nm, 80nm, 55nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
717
11.0
NVM OTP NeoBit in UMC (180nm, 160nm, 130nm, 110nm, 80nm, 55nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
718
11.0
NVM OTP NeoBit in Vanguard (350nm, 250nm, 180nm, 160nm, 150nm, 110nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
719
11.0
NVM OTP NeoBit in X-FAB (250nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
720
10.0
1-10G Low Power SERDES - TSMC 40G
Analog Bits Programmable SERDES provides a Physical Media Attachment (PMA) Layer capable of signaling at multiple data rates and supports multi-protoc...
721
10.0
1-15G SERDES PCIe3/HMC SERDES PHY - TSMC 16FF+GL
Analog Bits Programmable SERDES provides a Physical Media Attachment (PMA) Layer capable of signaling at multiple data rates and supports multi-protoc...
722
10.0
6-bit, 1 GSPS High Performance DAC in 28nm CMOS
The ODT-DAC-6B1G-28 is a ultra-high performance current steering 6-bit 1 GSPS DAC in a standard 28nm CMOS process, implemented using Omni Design's gro...
723
10.0
D-phy 1.2 on tsmc 22nm with ultra low power
Arasan Chip Systems announces the immediate availability its MIPI D-PHY IP supporting speeds of upto 2.5 gbps for TSMC 22nm SoC designs. The MIPI D-...
724
10.0
20-40MHz Low Noise Crystal Oscillator - TSMC CLN16FFC
Analog Bits offers a wide variety of IO. This low power, low noise Oscillator is optimized for consumer applications or applications that are sensitiv...
725
10.0
12 bit, 500 MSPS ADC on GF 22FDX
The ODT-ADS-12B500M-G22FDX is an ultra-low power ADC designed in a 22nm CMOS process. This 12-bit, 500MSPS ADC supports input signals upo 100MHz an...
726
10.0
32-bit Public Key Accelerator
Public key cryptography requires complex mathematical operations on very large numbers (from 160 to 4096 bits, or more). The majority of embedded CPUs...
727
10.0
128-bit Public Key Accelerator
Public key cryptography requires complex mathematical operations on very large numbers (from 160 to 4096 bits, or more). The majority of embedded CPUs...
728
10.0
I2C & SMBus Controller
The I2C-SMBUS core implements a serial interface controller for the Inter-Integrated Circuit (I2C) bus and the System Management Bus (SMBus). The cor...
729
10.0
I2C and SPI Master/Slave Controller
The I2CSPI-CTRL is a compact and versatile serial interface controller supporting both SPI (Serial Peripheral Interface) and I2C (Inter-Integrated Cir...
730
10.0
12G Ethernet PHY in Samsung (14nm)
The complete silicon-proven Synopsys IP solution, consisting of configurable digital controllers, PHYs, Integrity and Data Encryption (IDE) Security M...
731
10.0
12G Ethernet PHY in TSMC (28nm, 16nm, 12nm)
The complete silicon-proven Synopsys IP solution, consisting of configurable digital controllers, PHYs, Integrity and Data Encryption (IDE) Security M...
732
10.0
12G Ethernet PHY in UMC (28nm)
The complete silicon-proven Synopsys IP solution, consisting of configurable digital controllers, PHYs, Integrity and Data Encryption (IDE) Security M...
733
10.0
32G PHY in GF (12nm, N7)
The multi-lane Synopsys Multi-Protocol 32G PHY IP is part of Synopsys’ high-performance multi-rate transceiver portfolio for high-end networking and ...
734
10.0
32G PHY in Samsung (10nm, 8nm, 4nm, 5nm, SF2)
The multi-lane Synopsys Multi-Protocol 32G PHY IP is part of Synopsys’ high-performance multi-rate transceiver portfolio for high-end networking and c...
735
10.0
32G PHY in TSMC (N5A, N3A) for Automotive
The multi-lane Synopsys Multi-Protocol 32G PHY IP is part of Synopsys’ high-performance multi-rate transceiver portfolio for high-end networking and ...
736
10.0
32KHz Low Noise Crystal 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...
737
10.0
I3C Device Controller v1.2
The Arasan I3C Device Controller IP Implements Device Controller functionality as defined by the MIPI Alliance’s I3C Specification. The I3C bus is us...
738
10.0
I3C Dual Controller v1.2
The Arasan I3C Secondary Controller IP Core implements Active controller functionality as defined by the MIPI Alliance’s I3C Specification and Seconda...
739
10.0
I3C Slave Controller
The Arasan I3C Slave Controller IP Core Implements Slave functionality as defined by the MIPI Alliance’s I3C Specification. The I3C bus is used for va...
740
10.0
25G Ethernet PHY in GF (14nm)
The multi-lane Synopsys Multi-Protocol 25G PHY IP is part of Synopsys’ high- performance multi-rate transceiver portfolio for high-end networking and ...
741
10.0
25G Ethernet PHY in TSMC (16nm, 12nm, N7)
The multi-lane Synopsys Multi-Protocol 25G PHY IP is part of Synopsys’ high- performance multi-rate transceiver portfolio for high-end networking and ...
742
10.0
25G PHY in GF (14nm, 12nm)
The multi-lane Synopsys Multi-Protocol 25G PHY IP is part of Synopsys’ high- performance multi-rate transceiver portfolio for high-end networking and ...
743
10.0
25G PHY in TSMC (16nm, 12nm, N7, N6)
The multi-lane Synopsys Multi-Protocol 25G PHY IP is part of Synopsys’ high- performance multi-rate transceiver portfolio for high-end networking and ...
744
10.0
16-22Bit 97dB Stereo Audio CODEC with Linein/Digital and Analog Microphone Recording, Lineout/Headphone/Speaker Playback, SMIC 65nmll
The AR82S01 is a silicon-proven, low-power, ultra compact 16-22bit stereo audio CODEC IP fabricated in SMIC 65nmll logic process. The CODEC IP core em...
745
10.0
16G PHY in Samsung (14nm, 11nm)
The complete silicon-proven Synopsys IP solution, consisting of configurable digital controllers, PHYs, Integrity and Data Encryption (IDE) Security M...
746
10.0
16G PHY in TSMC (28nm, 16nm, 12nm, N7, N6)
The complete silicon-proven Synopsys IP solution, consisting of configurable digital controllers, PHYs, Integrity and Data Encryption (IDE) Security M...
747
10.0
16G PHY in TSMC (N7) for Automotive
The complete silicon-proven Synopsys IP solution, consisting of configurable digital controllers, PHYs, Integrity and Data Encryption (IDE) Security M...
748
10.0
18-40 MHz Crystal Oscillator - TSMC CLN3A
High end consumer and professional applications require crystals with a minimum number of external components. These applications typically operate un...
749
10.0
18-40 MHz Crystal Oscillator - TSMC CLN4P
High end consumer and professional applications require crystals with a minimum number of external components. These applications typically operate un...
750
10.0
18-40 MHz Crystal Oscillator - TSMC CLN5
High end consumer and professional applications require crystals with a minimum number of external components. These applications typically operate un...