Complex semiconductor IP is an Indian opportunity
Christian Heidarson, Gartner Group
(08/17/2006 6:41 AM EDT), EE Times
In 2005, the market for semiconductor intellectual property (IP) grew by 16 per cent to reach $1.4 billion. While patent-related IP revenues accounted for a large part of this growth, 2006 is turning out to be a strong year also for non-patent revenues. The IP market has consolidated over the last three years as traditional product categories are maturing and penetration of digital IP sockets is reaching saturation.
Looking forward, however, the demand for IP is evolving — mirroring the increasing complexity of the system-on-chip (SoC) devices that the IP is used in. The evolving IP industry will present new opportunities for the Indian semiconductor design services industry.
Semiconductor IP is crucial for the continuing progression of Moore's Law, especially for the design of more integrated SoCs. To keep up with Moore's Law, SoC designers require larger, more complex IP blocks. At present, these complex IP blocks tend to be designed by semiconductor vendors' in-house teams, though they will often be made up of simpler IP blocks acquired from the third-party market. But as semiconductor vendors shift their attention to the system-level challenges of designs with very large gate counts, they will also need third-party solutions for the more complex IP blocks.
(08/17/2006 6:41 AM EDT), EE Times
In 2005, the market for semiconductor intellectual property (IP) grew by 16 per cent to reach $1.4 billion. While patent-related IP revenues accounted for a large part of this growth, 2006 is turning out to be a strong year also for non-patent revenues. The IP market has consolidated over the last three years as traditional product categories are maturing and penetration of digital IP sockets is reaching saturation.
Looking forward, however, the demand for IP is evolving — mirroring the increasing complexity of the system-on-chip (SoC) devices that the IP is used in. The evolving IP industry will present new opportunities for the Indian semiconductor design services industry.
Semiconductor IP is crucial for the continuing progression of Moore's Law, especially for the design of more integrated SoCs. To keep up with Moore's Law, SoC designers require larger, more complex IP blocks. At present, these complex IP blocks tend to be designed by semiconductor vendors' in-house teams, though they will often be made up of simpler IP blocks acquired from the third-party market. But as semiconductor vendors shift their attention to the system-level challenges of designs with very large gate counts, they will also need third-party solutions for the more complex IP blocks.
To read the full article, click here
Related Semiconductor IP
- 12-bit, 400 MSPS SAR ADC - TSMC 12nm FFC
- 10-bit Pipeline ADC - Tower 180 nm
- Simulation VIP for Ethernet UEC
- Automotive Grade PLLs, Oscillators, SerDes PMAs, LVDS/CML IP
- CAN-FD Controller
Related News
- Renesas Partners with Indian Government to Drive Innovation Through Startups and Industry-Academia Collaboration, Strengthening India’s Semiconductor Ecosystem
- Qualitas Semiconductor Successfully Develops UCIe v2.0-Compliant PHY IP, Enabling Up to 512Gbps Die-to-Die Connectivity
- SkyWater Technology Expands Leadership in U.S. Semiconductor Manufacturing with Infineon IP License Agreement
- Qualitas Semiconductor Signs Licensing Agreement with Chinese SoC Company for DSI-2 Controller and MIPI PHY IP
Latest News
- Qualitas Semiconductor Demonstrates Live of PCIe Gen 6.0 PHY and UCIe v2.0 Solutions at ICCAD 2025
- WAVE-N v2: Chips&Media’s Custom NPU Retains 16-bit FP for Superior Efficiency at High TOPS
- Quintauris releases RT-Europa, the first RISC-V Real-Time Platform for Automotive
- PQShield's PQCryptoLib-Core v1.0.2 Achieves CAVP Certification for a broad set of classical and post-quantum algorithms
- M31 Debuts at ICCAD 2025, Empowering the Next Generation of AI Chips with High-Performance, Low-Power IP