Design & Reuse
3729 IP
51
20.0
LPDDR5X/5/4X/4 combo PHY at 12nm
The LPDDR5X/5/4X/4 combo PHY IP features a state-of-art mixed-signal architecture that addresses the challenges of DRAM integration in high-performan...
52
20.0
USB4 Gen3X2 and DP1.4 X4 PHY IP with Type-C connector support
M31 USB4 Gen3x2 transceiver IP provides a complete range of USB4 Gen3x2 host and peripheral applications up to 40Gbps. It is compliant with the PIPE5....
53
15.5556
SMD RISC-V SDK
Quickly and seamlessly develop, debug and fine-tune applications for Semidynamics RISC-V hardware with the SMD RISC-V SDK. It is a complete software d...
54
15.5556
Avispado 222 - High Bandwidth RISC-V IP Core
...
55
15.0
GDDR6X, GDDR6 Combo PHY & Controller
The INNOSILICON™ GDDR6X/6 PHY is fully compliant with the JEDEC GDDR6X/6 standard, supporting data rates of up to 20 Gbps per pin for PAM2 GDDR6 mode ...
56
11.0
Power and Ground BondPads that include CC-100IP Digital and Switching Circuit Power Reduction Technology, Featuring 20% to 40% Total Dynamic Power Reduction
All electronic systems that use CMOS digital circuits generate EM noise and currents (overlap current) as an undesired byproduct of their function. T...
57
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-...
58
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-...
59
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-...
60
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-...
61
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-...
62
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-...
63
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-...
64
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-...
65
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-...
66
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-...
67
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-...
68
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-...
69
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-...
70
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-...
71
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-...
72
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...
73
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...
74
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...
75
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...
76
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...
77
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...
78
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...
79
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...
80
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...
81
11.0
NVM EEPROM NeoEE in SMIC (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...
82
11.0
NVM EEPROM NeoEE in TSMC (180nm, 160nm, 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...
83
11.0
NVM EEPROM NeoEE in UMC (180nm, 160nm, 150nm, 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...
84
11.0
NVM EEPROM NeoEE in Vanguard (180nm, 150nm, 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...
85
11.0
NVM eFlash NeoFlash in GLOBALFOUNDRIES (110nm)
eMemory's NeoFlash IP is a cost-effective embedded Flash solution for both foundries & customers. Only 2~3 additional masks are required, and NeoFlash...
86
11.0
NVM eFlash NeoFlash in TSMC (160nm)
eMemory's NeoFlash IP is a cost-effective embedded Flash solution for both foundries & customers. Only 2~3 additional masks are required, and NeoFlash...
87
11.0
NVM eFlash NeoFlash in Vanguard (160nm)
eMemory's NeoFlash IP is a cost-effective embedded Flash solution for both foundries & customers. Only 2~3 additional masks are required, and NeoFlash...
88
11.0
NVM eFlash RRAM in UMC (40nm)
eMemory's RRAM IP is a cost-effective embedded Flash solution for both foundries & customers. Only 2~3 additional masks are required, and RRAM gives f...
89
11.0
NVM MTP NeoMTP in DBHitek(180nm, 130nm)
NeoMTP is a single-poly embedded memory technology offering high NVM memory density with 1K endurance at the lowest implementation cost to be found in...
90
11.0
NVM MTP NeoMTP in GLOBALFOUNDRIES (130nm)
NeoMTP is a single-poly embedded memory technology offering high NVM memory density with 1K endurance at the lowest implementation cost to be found in...
91
11.0
NVM MTP NeoMTP in Grace (180nm)
NeoMTP is a single-poly embedded memory technology offering high NVM memory density with 1K endurance at the lowest implementation cost to be found in...
92
11.0
NVM MTP NeoMTP in HJTC (180nm)
NeoMTP is a single-poly embedded memory technology offering high NVM memory density with 1K endurance at the lowest implementation cost to be found in...
93
11.0
NVM MTP NeoMTP in JSC (130nm)
NeoMTP is a single-poly embedded memory technology offering high NVM memory density with 1K endurance at the lowest implementation cost to be found in...
94
11.0
NVM MTP NeoMTP in SKHYNIX (180nm, 130nm)
NeoMTP is a single-poly embedded memory technology offering high NVM memory density with 1K endurance at the lowest implementation cost to be found in...
95
11.0
NVM MTP NeoMTP in SMIC (180nm, 110nm, 90nm)
NeoMTP is a single-poly embedded memory technology offering high NVM memory density with 1K endurance at the lowest implementation cost to be found in...
96
11.0
NVM MTP NeoMTP in Tower (180nm, 65nm)
NeoMTP is a single-poly embedded memory technology offering high NVM memory density with 1K endurance at the lowest implementation cost to be found in...
97
11.0
NVM MTP NeoMTP in TSMC (180nm, 90nm)
NeoMTP is a single-poly embedded memory technology offering high NVM memory density with 1K endurance at the lowest implementation cost to be found in...
98
11.0
NVM MTP NeoMTP in UMC (180nm, 160nm, 110nm, 80nm, 55nm)
NeoMTP is a single-poly embedded memory technology offering high NVM memory density with 1K endurance at the lowest implementation cost to be found in...
99
11.0
NVM OTP NeoBit in ASMC (350nm)
eMemory's NeoBit OTP (One-Time Programmable) IP can be implemented seamlessly in various CMOS technologies such as logic, mixed-mode, analog, Radio-Fr...
100
11.0
NVM OTP NeoBit in CANSEMI (180nm, 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...