101 8.0

Compact, ultra-low power, 5 Bits, all-digital temperature sensor in GF-22nm FDX All-digital temperature sensor with self-shutdown occupying only 7umx44um chip are and consuming less than 50uA during reading from 0.8v supply. The s...

102 8.0

Low jitter, low-power clock-deskew PLL operating from 6GHz to 9.5GHz InCirT’s CDPLLGF22 is a ring-oscillator-based clock-deskew PLL designed for low jitter and low power consumption, operating within a frequency range o...

103 8.0

Low jitter, ultra-low power (<950uW) ring-oscillator-based PLL-2.4GHz InCirT’s APLL2p4GGF22 is the ring-oscillator based analogue-PLL which provides low jitter (1ps rms jitter at 2.4GHz) and low-power consumption (<950uW...

104 8.0

Low-power output buffer up to 15GHz in GF 22nmFDX InCirT's IAMPGF22FDX is a low-power output buffer capable of operating at frequencies up to 15 GHz. It supports both differential and single-ended loa...

105 8.0

Low-Power, High-Accuracy, Bandgap Reference in GF22FDX Our ICPMBGR01_GF22FDX is a high precision voltage and current reference circuit that consumes ultra-low power from a single supply. Moreover, ICPMBGR0...

106 5.0

Time Sensitive Networking (TSN) IIC(R) Plugfest Application core The TSN Industrial Internet Consortium(R) (IIC) Plugfest Application is a companion core for the TSN IP cores from NetTimeLogic. The IIC(R) Plugfest A...

107 5.0

NTP Client core NetTimeLogic’s NTP Clientis a full hardware (FPGA) only implementation of a SNTPv4 Client according to RFC 4330/5905. It supports hardware timestampin...

108 5.0

Synchronous Ethernet (SyncE) ESMC and Enhanced ESMC core NetTimeLogic’s Synchronous Ethernet (SyncE) Node is a full hardware (FPGA) only implementation of an ESMC frame Handler and State selector. The whole ...

109 4.0

Adjustable Counter Clock core The Adjustable Clock from NetTimeLogic is an adjustable counter clock with nanosecond resolution (second and nanosecond format). It is used by all oth...

110 2.0

NMEA Time of Day (ToD) Slave core NetTimeLogic’s NMEATime Of Day (ToD) Slave Clock is a full hardware (FPGA) only implementation of a synchronization core able to synchronize to a Time...

111 2.0

IRIG-B Slave core NetTimeLogic’s IRIG Slave Clock is a full hardware (FPGA) only implementation of a synchronization core able to synchronize to an IRIG-B004, B005, B00...

112 2.0

Pulse Per Second Slave (PPS) core NetTimeLogic’s PPS Slave Clock is a full hardware (FPGA) only implementation of a synchronization core able to synchronize to a Pulse per Second input...

113 1.0

Radio Clock (DCF77) Master core NetTimeLogic’s DCF Master Clock is a full hardware (FPGA) only implementation of a synchronization core able to synchronize other nodes via DCF signal...

114 1.0

Radio Clock (DCF77) Slave core NetTimeLogic’s DCFSlave Clock is a full hardware (FPGA) only implementation of a synchronization core able to synchronize to a DCF signal encoded as P...

115 1.0

Real Time Clock (RTC) Master core NetTimeLogic’s RTC Master Clock is a full hardware (FPGA) only implementation of a synchronization core allowing to read and write a I2C Realtime Cloc...

116 1.0

Time aligned Frequency Generator core The Frequency Generator from NetTimeLogic is a clock aligned frequency generator allowing any frequency to be generated between 1Hz and 10MHz adjustab...

117 1.0

Time aligned Signal Generator core The Signal Generator from NetTimeLogic is a clock aligned pulse and pattern (PWM) generator with nanosecond resolution (second and nanosecond format)....

118 1.0

Time aligned Signal Timestamper core The Signal Timestamper from NetTimeLogic is a timestamper with nanosecond resolution (second and nanosecond format). It uses NetTimeLogic's Adjustable...

119 1.0

NMEA Time of Day (ToD) Master core NetTimeLogic’s Time Of Day (ToD) Master Clock is a full hardware (FPGA) only implementation of a synchronization core able to synchronize a Time of Da...

120 1.0

IRIG-B Master core NetTimeLogic’s IRIG Master Clock is a full hardware (FPGA) only implementation of a synchronization core able to synchronize other nodes via IRIG-B007...

121 1.0

Pulse Per Second (PPS) Clock to PPS core NetTimeLogic’s PPS Clock to PPS core is a full hardware (FPGA) only implementation of a PPS generator out of a clock of configurable frequency, it is ...

122 1.0

Pulse Per Second Master (PPS) core NetTimeLogic’s PPS Master Clock is a full hardware (FPGA) only implementation of a synchronization core able to synchronize other nodes to a Pulse per...

123 0.0

a robust lighting control technology based on the globally interoperable Bluetooth mesh standard. We provide a robust lighting control technology based on the globally interoperable Bluetooth mesh standard. Whether you are a component manufacturer,...

124 0.0

6 Stage superscaler, 32 Bit RISC-V embedded functional safety processor with the ASIL-D functional safety standard comparable to M7 TAE330 - 32‑bit RISC‑V embedded functional safety processor, built on the TGE330, enhanced with Parity/ECC, SPM, and Dual‑Core Lockstep (DCLS) featur...

125 0.0

9 Stage Superscaler, 64 Bit RISC-V application-level functional security processor, comparable to Cortex A55 TAS500- A 64-bit RISC-V application-grade functional safety processor, compliant with ASIL-B standards....

126 0.0

8 Stage Superscaler, 64-bit RISC-V AI acceleration processor designed for artificial intelligence, comparable to Cortex A55 TDS350N is a 64‑bit RISC‑V AI acceleration processor, purpose‑built for artificial intelligence and machine learning workloads. It delivers optimized ...

127 0.0

9 Stage superscaler, ASIL-B, 64 Bit RISC-V application-grade general-purpose processor comparable to Cortex R55 TGS500- A high energy-efficient 64-bit RISC-V application-grade processor compliant with the RVA23 profile, supporting vector extensions and optional ...

128 0.0

8-bit MCU The DF6811 is an advanced 8-bit MCU IP Core, with highly sophisticated, on-chip peripheral capabilities. DF6811 soft core is binary-compatible with th...

129 0.0

V-by-One Rx IP, Silicon Proven in 40G Using internal equipment connections, the V-by-One HS technology seeks to send video signals at a high data rate. The V-by-One HS Standard outlines th...

130 0.0

V-by-One Rx IP, Silicon Proven in SMIC 40LL The V-by-One HS technology aims to transmit video signals at a high data rate using internal equipment connections. The requirements to create a trans...

131 0.0

V-by-One Tx IP, Silicon Proven in 40G The V-by-One HS technology aims to transmit video signals at a high data rate using an internal connection between devices. The requirements to create...

132 0.0

V-by-One Tx IP, Silicon Proven in SMIC 40LL V-by-One HS technology targets a high-speed data transmission of video signals based on the internal connection of equipment. V-by-One® HS Standard de...

133 0.0

V-by-One/ LVDS Tx IP, Silicon Proven in SMIC 40LL The V-by-One® HS technology aims to transmit video signals at a high data rate using internal equipment connections. The requirements to create a tran...

134 0.0

V-by-One/LVDS Rx IP, Silicon Proven in GF 22FDX The V-by-One® HS technology aims to transmit video signals at a high data rate using internal equipment connections. The requirements to create a tran...

135 0.0

V-by-One/LVDS Rx IP, Silicon Proven in SMIC 40LL V-by-One® HS technology targets a high-speed data transmission of video signals based on internal connection of equipment. V-by-One® HS Standard defin...

136 0.0

V-by-One/LVDS Tx Combo PHY, Silicon Proven in 28HPC+ V-by-One/ LVDS Tx Combo PHY IP Core aims at achieving high-speed data transmission for video signals through internal equipment connections. The V-by-...

137 0.0

V-by-One/LVDS Tx IP, Silicon Proven in GF 22FDX Based on internal equipment connections, the V-by-One® HS technology aims to transmit video signals at high data rates. The requirements to build a tr...

138 0.0

v-CNNDesigner tool The new v-CNNDesigner tool automatically translates trained neural networks into optimized implementations that run efficiently on the v-MP6000UDX arc...

139 0.0

D-MAC-10/100 Our innovative solution is a hardware implementation of media access control protocol defined by the IEEE standard. DMAC in cooperation with external ...

140 0.0

v-MP6000UDX - Deep Learning and Vision Processor The videantis processor is the most power-efficient and highest-performing visual processing architecture that you can license on the market. Whether ...

141 0.0

v-MP6000UDX processor Deep learning has quickly become a must-have technology to bring new smart sensing and intelligent analysis capabilities to all of our electronics. Wh...

142 0.0

8-stage superscalar, vector crypto, 4-bit RISC-V application-grade AI acceleration processor, comparable to Cortex A55 TDS516A- A high‑efficiency 64‑bit RISC‑V application‑grade processor with integrated AI acceleration, fully compliant with the RVA23 Profile and suppo...

143 0.0

H.264/265 Video Encoder and Decoder IP The Hardware Encoder Video Accelerator (HEVA), supports HEVC encoding low complexity with a flexible architecture targeting at least 1080p60 with mini...

144 0.0

1.2V->0.8V Low/Ultra-low Power LDO Comparator IP Core A 1.2V->0.8V Low/Ultra-low Power LDO Comparator (Low Drop-Out) is a type of voltage regulator designed to provide a stable output voltage of 0.8 volts...

145 0.0

4.2V->3.3V Low/Ultra-low Power LDO IP Core A 4.2V -> 3.3V low power LDO (Low Drop-Out) is a type of voltage regulator designed to provide a stable output voltage of 3.3 volts from a 4.2-volt in...

146 0.0

3.3V - >1.2V/1.1V/0.9V Low Power Cap-less LDO IP Core A 3.3V - >1.2V/1.1V/0.9V Low Power Cap-less LDO (Low Drop-Out) is a type of voltage regulator designed to provide a stable output voltage of 0.9 volts...

147 0.0

3.3V ->1.1V/0.9V Cap-less LDO IP Core A 3.3V -> 1.1V low power LDO (Low Drop-Out) is a type of voltage regulator designed to provide a stable output voltage of 1.1 volts from a 3.3-volt in...

148 0.0

3.3V- >1.2/1.1V/0.9V Ultra-low Power LDO IP Core A 3.3V->1.2V/1.0V/0.8V Low/Ultra-low Power LDO (Low Drop-Out) is a type of voltage regulator designed to provide a stable output voltage of 0.8 volts ...

149 0.0

3.3V->1.1V/0.9V/0.8V Low/Ultra-low Power LDO IP Core A 3.3V -> 1.1V low power LDO (Low Drop-Out) is a type of voltage regulator designed to provide a stable output voltage of 1.1 volts from a 3.3-volt in...

150 0.0

3.3V->1.2V/1.0V/0.8V Low/Ultra-low Power LDO IP Core A 3.3V->1.2V/1.0V/0.8V Low/Ultra-low Power LDO (Low Drop-Out) is a type of voltage regulator designed to provide a stable output voltage of 0.8 volts ...