News & Event
🚀 Qualitas Semiconductor Successfully Develops UCIe v2.0-Compliant PHY IP!We’re excited to share that our latest UCIe PHY IP — a key IP for Chiplet interface implementation — is fully compliant with the UCIe 2.0 specification. Supporting up to 512Gbps (56GB/s) data transfer over 32 lanes with just a 1mm trace width, it delivers high bandwidth and low latency — ideal for AI accelerators, data center SoCs, and high-density Chiplet architectures.👉 Read the full announcement here: 🔗 https://lnkd.in/gHESmC_m
🚀 Qualitas Semiconductor Successfully Develops UCIe v2.0-Compliant PHY IP!We’re excited to share that our latest UCIe PHY IP — a key IP for Chiplet interface implementation — is fully compliant with the UCIe 2.0 specification. Supporting up to 512Gbps (56GB/s) data transfer over 32 lanes with just a 1mm trace width, it delivers high bandwidth and low latency — ideal for AI accelerators, data center SoCs, and high-density Chiplet architectures.👉 Read the full announcement here: 🔗 https://lnkd.in/gHESmC_m
🚀 Qualitas Semiconductor Successfully Develops UCIe v2.0-Compliant PHY IP!We’re excited to share that our latest UCIe PHY IP — a key IP for Chiplet interface implementation — is fully compliant with the UCIe 2.0 specification. Supporting up to 512Gbps (56GB/s) data transfer over 32 lanes with just a 1mm trace width, it delivers high bandwidth and low latency — ideal for AI accelerators, data center SoCs, and high-density Chiplet architectures.👉 Read the full announcement here: 🔗 https://lnkd.in/gHESmC_m
🚀 Qualitas Semiconductor Successfully Develops UCIe v2.0-Compliant PHY IP!We’re excited to share that our latest UCIe PHY IP — a key IP for Chiplet interface implementation — is fully compliant with the UCIe 2.0 specification. Supporting up to 512Gbps (56GB/s) data transfer over 32 lanes with just a 1mm trace width, it delivers high bandwidth and low latency — ideal for AI accelerators, data center SoCs, and high-density Chiplet architectures.👉 Read the full announcement here: 🔗 https://lnkd.in/gHESmC_m
🚀 Qualitas Semiconductor Successfully Develops UCIe v2.0-Compliant PHY IP!We’re excited to share that our latest UCIe PHY IP — a key IP for Chiplet interface implementation — is fully compliant with the UCIe 2.0 specification. Supporting up to 512Gbps (56GB/s) data transfer over 32 lanes with just a 1mm trace width, it delivers high bandwidth and low latency — ideal for AI accelerators, data center SoCs, and high-density Chiplet architectures.👉 Read the full announcement here: 🔗 https://lnkd.in/gHESmC_m
🚀 Qualitas Semiconductor Successfully Develops UCIe v2.0-Compliant PHY IP!We’re excited to share that our latest UCIe PHY IP — a key IP for Chiplet interface implementation — is fully compliant with the UCIe 2.0 specification. Supporting up to 512Gbps (56GB/s) data transfer over 32 lanes with just a 1mm trace width, it delivers high bandwidth and low latency — ideal for AI accelerators, data center SoCs, and high-density Chiplet architectures.👉 Read the full announcement here: 🔗 https://lnkd.in/gHESmC_m
🚀 Qualitas Semiconductor Successfully Develops UCIe v2.0-Compliant PHY IP!We’re excited to share that our latest UCIe PHY IP — a key IP for Chiplet interface implementation — is fully compliant with the UCIe 2.0 specification. Supporting up to 512Gbps (56GB/s) data transfer over 32 lanes with just a 1mm trace width, it delivers high bandwidth and low latency — ideal for AI accelerators, data center SoCs, and high-density Chiplet architectures.👉 Read the full announcement here: 🔗 https://lnkd.in/gHESmC_m
🚀 Qualitas Semiconductor Successfully Develops UCIe v2.0-Compliant PHY IP!We’re excited to share that our latest UCIe PHY IP — a key IP for Chiplet interface implementation — is fully compliant with the UCIe 2.0 specification. Supporting up to 512Gbps (56GB/s) data transfer over 32 lanes with just a 1mm trace width, it delivers high bandwidth and low latency — ideal for AI accelerators, data center SoCs, and high-density Chiplet architectures.👉 Read the full announcement here: 🔗 https://lnkd.in/gHESmC_m