Design & Reuse
5377 IP
601
12.0
FTP Non Volatile Memory for Standard TSMC 40nm ULP Process
NSCore's TwinBit(TM)FTP is the only embedded CMOS, few-time programmable (FTP), non-volatile RAM IP of its kind, utilizing the 'hot carrier effect' to...
602
12.0
MTP Non Volatile Memory for TSMC 180nm BCD Process
NSCore's TwinBit(TM) is the only embedded CMOS, multi-time programmable (MTP), non-volatile RAM IP of its kind, utilizing the 'hot carrier effect' to ...
603
11.0
12-bit, 5 MSPS ADC with 8:1 Input Mux in 6nm CMOS
The ODT-ADS-12B5M-6 is an ultra low-power ADC designed in a 6nm process. This 12-bit, 5MSPS ADC supports input signals up to 1 MHz and features 1.8V s...
604
11.0
12bit, 400 MSPS ADC Ultra Low Power
The ODT-ADS-12B400M-7T is an ultra low power ADC designed in a 7nm CMOS process. This 12-bit, 400MSPS ADC supports input signals up to 200MHz and fea...
605
11.0
I2S/Left-Justified/TDM Digital Audio Interface
The AR38U12 is a soft macro IP supporting industry-standard I2S, Left-Justified and Time-Division-Multiplexed (TDM) serial interface to parallel PCM (...
606
11.0
MIPI C-PHY DSI TX (Transmitter/Host) IP in TSMC 22ULL
The MXL-CPHY-2p5G-DSI-TX-T-22ULL is a high-frequency, low-power, low-cost, source-synchronous, physical Layer supporting the MIPI Alliance Specificati...
607
11.0
MIPI C-PHY/D-PHY Combo 2-Lane CSI-2 TX+ IP in TSMC 40ULP
The MXL-CDPHY-2L-CSI-2-TX+-40ULP is a high-frequency, low-power, low-cost, sourcesynchronous, physical Layer supporting the MIPI Alliance Specificatio...
608
11.0
MIPI C-PHY/D-PHY Combo CSI-2 TX+ IP 3.5Gsps/2.5Gbps
The MXL-CD-PHY-CSITX+-ST-28FDSOI is a high-frequency, low-power, low-cost, source-synchronous, physical Layer supporting the MIPI Alliance Specificati...
609
11.0
MIPI C-PHY/D-PHY Combo DSI RX (Receiver) IP in TSMC 22ULP
The MXL-CDPHY-DSI-RX-T-22ULP is a high-frequency, low-power, low-cost, source-synchronous, physical Layer supporting the MIPI Alliance Specification f...
610
11.0
MIPI C-PHY/D-PHY Combo Universal IP, 4.5Gsps/4.5Gbps in TSMC 22ULP
The MXL-CD-PHY-UNIV-T-22ULP is a high-frequency, low-power, low-cost, source-synchronous, physical Layer supporting the MIPI Alliance Specification fo...
611
11.0
MIPI D-PHY CSI-2 TX (Transmitter) in TSMC 28HPC+
The MXL-DPHY-CSI-2-TX-T-28HPC+ is a high-frequency, low-power, low-cost, source-synchronous, physical Layer supporting the MIPI Alliance Specification...
612
11.0
MIPI D-PHY CSI-2 TX+ (Transmitter) IP in TSMC 22ULL
The MXL-DPHY-CSI-2-TX+-T-22ULL is a high-frequency, low-power, low-cost, source-synchronous, physical Layer supporting the MIPI Alliance Specification...
613
11.0
MIPI D-PHY DSI RX (Receiver/Peripheral) in UMC 22ULP/22ULL
The MXL-DPHY-DSI-RX-U-22ULP-22ULL is a high-frequency, low-power, low-cost, source-synchronous, physical Layer supporting the MIPI Alliance Specificat...
614
11.0
MIPI D-PHY IP 4.5Gbps in TSMC N7
The MXL-DPHY-DSI-TX-T-N07 is a high-frequency, low-power, low-cost, source-synchronous, physical Layer supporting the MIPI Alliance Specification for ...
615
11.0
MIPI D-PHY Universal IP in TSMC 28HPC+
The MXL-DPHY-UNIV-T-28HPC+ is a high-frequency, low-power, low-cost, source-synchronous, physical Layer supporting the MIPI Alliance Specificatio...
616
11.0
MIPI D-PHY Universal IP in UMC 28HPC+
The MXL-DPHY-UNIV-U-28HPC+ is a high-frequency, low-power, low-cost, source-synchronous, physical Layer supporting the MIPI Alliance Specification for...
617
11.0
MIPI M-PHY HS-G4 IP (M-PHY v4.1) in TSMC 40G
The MXL-MIPI-M-PHY is a high-frequency low-power, low-cost, Physical Layer IP compliant with the MIPI Alliance Standard for M-PHY. The IP can be used ...
618
11.0
DMA AXI4-Stream to/from AXI4 Memory Map - Scatter-Gather Command Stream List
The Digital Blocks DB-DMAC-MC2-CS-MM2S-S2MM Verilog RTL IP Core is a Multi-Channel Scatter-Gather DMA Controller that transfers data between AXI4 Memo...
619
11.0
DMA AXI4-Stream to/from AXI4 Memory Map - Scatter-Gather Descriptor List
The Digital Blocks DB-DMAC-MC2-DL-MM2S-S2MM Verilog RTL IP Core is a Multi-Channel Scatter-Gather DMA Controller that transfers data between AXI4 Memo...
620
11.0
Automotive MIPI C-PHY/D-PHY Combo CSI-2 TX 4.5Gsps/trio in TSMC 28HPC+
The AUTO-MXL-CDPHY-4p5G-CSI-2-TX-T-28HPC+ is a high-frequency, low-power, low-cost, source-synchronous, physical Layer supporting the MIPI Alliance Sp...
621
11.0
Automotive MIPI D-PHY CSI-2 RX (Receiver) in TSMC 16FFC
The AUTO-MXL-DPHY-CSI-2-RX-T-16FFC is a high-frequency, low-power, low-cost, source-synchronous, Physical Layer supporting the MIPI Alliance Specifica...
622
11.0
Automotive MIPI D-PHY CSI-2 RX (Receiver) in TSMC 28HPC+
The AUTO-MXL-DPHY-CSI-2-RX is a high-frequency low-power, low-cost, source-synchronous, Physical Layer supporting the MIPI Alliance Specification for ...
623
11.0
Automotive MIPI D-PHY CSI-2 RX+ (Receiver) IP in UMC 40ULP
The AUTO-MXL-DPHY-CSI-2-RX+ is a high-frequency low-power, low-cost, source-synchronous, Physical Layer supporting the MIPI Alliance Specification for...
624
11.0
Automotive MIPI D-PHY CSI-2 RX+ IP in TSMC 28HPC+
The AUTO-MXL-DPHY-CSI-RX+-T-28HPC+ is a high-frequency, low-power, low-cost, source-synchronous, physical Layer supporting the MIPI Alliance Specifica...
625
11.0
Automotive MIPI D-PHY CSI-2 TX (Transmitter) in GlobalFoundries 22FDX
The AUTO-MXL-DPHY-CSI-2-TX is a high-frequency low-power, low-cost, source synchronous, Physical Layer supporting the MIPI Alliance Specification for ...
626
11.0
Automotive MIPI D-PHY DSI TX (Transmitter) in TSMC 28HPC+
The AUTO-MXL-D-PHY-DSI-TX-T-28HPC+ is a high-frequency, low-power, low-cost, source-synchronous, physical Layer supporting the MIPI Alliance Specifica...
627
11.0
NVM Anti-Fuse OTP NeoFuse in DBHitek(90nm)
NeoFuse is a small-form factor logic NVM technology with the advantages of working on low power and being highly reliable and secure. It provides non-...
628
11.0
NVM Anti-Fuse OTP NeoFuse in GLOBALFOUNDRIES (55nm, 40nm, 28nm, 22nm, 12nm)
NeoFuse is a small-form factor logic NVM technology with the advantages of working on low power and being highly reliable and secure. It provides non-...
629
11.0
NVM Anti-Fuse OTP NeoFuse in HHNEC (55nm)
NeoFuse is a small-form factor logic NVM technology with the advantages of working on low power and being highly reliable and secure. It provides non-...
630
11.0
NVM Anti-Fuse OTP NeoFuse in HLIC (28nm)
NeoFuse is a small-form factor logic NVM technology with the advantages of working on low power and being highly reliable and secure. It provides non-...
631
11.0
NVM Anti-Fuse OTP NeoFuse in Huali (55nm, 28nm)
NeoFuse is a small-form factor logic NVM technology with the advantages of working on low power and being highly reliable and secure. It provides non-...
632
11.0
NVM Anti-Fuse OTP NeoFuse in Maxchip (90nm, 80nm, 55nm, 40nm)
NeoFuse is a small-form factor logic NVM technology with the advantages of working on low power and being highly reliable and secure. It provides non-...
633
11.0
NVM Anti-Fuse OTP NeoFuse in NEXCHIP (90nm, 55nm, 40nm)
NeoFuse is a small-form factor logic NVM technology with the advantages of working on low power and being highly reliable and secure. It provides non-...
634
11.0
NVM Anti-Fuse OTP NeoFuse in Samsung (130nm, 28nm)
NeoFuse is a small-form factor logic NVM technology with the advantages of working on low power and being highly reliable and secure. It provides non-...
635
11.0
NVM Anti-Fuse OTP NeoFuse in SKHYNIX (90nm)
NeoFuse is a small-form factor logic NVM technology with the advantages of working on low power and being highly reliable and secure. It provides non-...
636
11.0
NVM Anti-Fuse OTP NeoFuse in SMIC (90nm, 55nm, 40nm, 28nm)
NeoFuse is a small-form factor logic NVM technology with the advantages of working on low power and being highly reliable and secure. It provides non-...
637
11.0
NVM Anti-Fuse OTP NeoFuse in TSMC (130nm, 110nm, 90nm, 80nm, 55nm, 40nm, 28nm, 22nm, 16nm, 12nm, N7, N6, N5, N5A, N4P)
NeoFuse is a small-form factor logic NVM technology with the advantages of working on low power and being highly reliable and secure. It provides non-...
638
11.0
NVM Anti-Fuse OTP NeoFuse in UMC (110nm, 80nm, 55nm, 40nm, 28nm, 22nm)
NeoFuse is a small-form factor logic NVM technology with the advantages of working on low power and being highly reliable and secure. It provides non-...
639
11.0
NVM Anti-Fuse OTP NeoFuse in USJC (55nm)
NeoFuse is a small-form factor logic NVM technology with the advantages of working on low power and being highly reliable and secure. It provides non-...
640
11.0
NVM Anti-Fuse OTP NeoFuse in Vanguard (150nm, 110nm)
NeoFuse is a small-form factor logic NVM technology with the advantages of working on low power and being highly reliable and secure. It provides non-...
641
11.0
NVM Anti-Fuse OTP NeoFuse in XMC (55nm)
NeoFuse is a small-form factor logic NVM technology with the advantages of working on low power and being highly reliable and secure. It provides non-...
642
11.0
NVM EEPROM NeoEE in CSMC (180nm, 160nm)
eMemory's NeoEE IP is a cost-effective embedded EEPROM solution for both foundries & customers. No additional masks are required, and NeoEE gives foun...
643
11.0
NVM EEPROM NeoEE in GLOBALFOUNDRIES (180nm)
eMemory's NeoEE IP is a cost-effective embedded EEPROM solution for both foundries & customers. No additional masks are required, and NeoEE gives foun...
644
11.0
NVM EEPROM NeoEE in Grace (180nm, 160nm, 130nm, 110nm)
eMemory's NeoEE IP is a cost-effective embedded EEPROM solution for both foundries & customers. No additional masks are required, and NeoEE gives foun...
645
11.0
NVM EEPROM NeoEE in HJTC (180nm)
eMemory's NeoEE IP is a cost-effective embedded EEPROM solution for both foundries & customers. No additional masks are required, and NeoEE gives foun...
646
11.0
NVM EEPROM NeoEE in MagnaChip (180nm, 130nm)
eMemory's NeoEE IP is a cost-effective embedded EEPROM solution for both foundries & customers. No additional masks are required, and NeoEE gives foun...
647
11.0
NVM EEPROM NeoEE in Maxchip (180nm, 150nm, 90nm)
eMemory's NeoEE IP is a cost-effective embedded EEPROM solution for both foundries & customers. No additional masks are required, and NeoEE gives foun...
648
11.0
NVM EEPROM NeoEE in NEXCHIP (150nm)
eMemory's NeoEE IP is a cost-effective embedded EEPROM solution for both foundries & customers. No additional masks are required, and NeoEE gives foun...
649
11.0
NVM EEPROM NeoEE in Samsung (180nm, 130nm)
eMemory's NeoEE IP is a cost-effective embedded EEPROM solution for both foundries & customers. No additional masks are required, and NeoEE gives foun...
650
11.0
NVM EEPROM NeoEE in SKHYNIX (180nm)
eMemory's NeoEE IP is a cost-effective embedded EEPROM solution for both foundries & customers. No additional masks are required, and NeoEE gives foun...