Advancements in solid-state circuits and systems continue to propel the ongoing fusion between the physical and virtual worlds. With the resulting growth in sensor deployment, data traffic and data center workloads, future systems must employ “intelligent” chips at all levels of the system stack to improve the efficiency at which we acquire, network, store, and process information. Modern applications centered around the Internet of Everything (IoE) and real-time data analytics are driving circuit and system designers toward new ways of leveraging the immense device density and processing power of modern technology. The ISSCC 2017 is seeking innovations that will fuel further progress in this development toward a truly smart and interconnected world.
ANALOG: Amplifiers, comparators, oscillators, filters, references, regulators, DC-DC converters; power control and management circuits, energy-harvesting circuits; nonlinear analog circuits; digitally-assisted analog circuits.
DATA CONVERTERS: Nyquist-rate and oversampling A/D and D/A converters; time-to-digital converters.
DIGITAL ARCHITECTURES & SYSTEMS: General-purpose microprocessors, micro-controllers, application processors, graphics processors, network processors, digital baseband processors, multi-mode communications systems, video and multimedia, machine-learning/deep-learning systems, neuromorphic systems, cryptographic systems, special function acceleration, systemlevel power management, near-threshold/subthreshold processing for wearable/IoE applications, digital architectures and systems for emerging applications (e.g. virtual reality, artificial intelligence, autonomous vehicles). DIGITAL CIRCUITS: Building blocks for 2D/3D SoC: including special-purpose digital circuits, intra-chip communication circuits, clock distribution techniques, soft-error and variation-tolerant circuits. Circuits for power management in digital applications: including voltage regulators, adaptive digital circuits, digital sensors; Sub-threshold and Near-threshold circuits; PLLs for digital clocking applications. Circuits for neuro-computing; Hardware security circuits (e.g. PUF).
IMAGERS, MEMS, MEDICAL, & DISPLAYS: Image sensors and companion chips; image-sensor SoCs; MEMS for analog, RF, timing and sensor applications; smart sensors, thermal sensors, ultrasonic sensors; sensor- and transducer-interface circuits; neural interfaces and closed-loop systems; biosensors, microarrays, and lab-on-a-chip; environmental and wearable electronics; biomedical SoCs; display and touch electronics, flexible displays, and displays with integrated sensing functionality.
MEMORY: Static, dynamic, and non-volatile memories for stand-alone and embedded applications; memory/SSD controllers; high-bandwidth I/O interfaces; memories based on phase-change, magnetic, spin-transfer-torque, ferroelectric, and resistive materials; array architectures and circuits to improve low-voltage operation, power reduction, reliability, and fault tolerance; memory subsystem enhancements, including in-memory logic functions.
RF CIRCUITS and WIRELESS SYSTEMS*: Building blocks and complete solutions at RF, mm-Wave, and THz frequencies for receivers, transmitters, frequency synthesizers, transceivers, SoCs, and SiPs. Innovative circuit-level and system architecture solutions for established wireless standards and future systems or applications.
TECHNOLOGY DIRECTIONS: Emerging IC and system solutions for: biomedical, sensor interfaces, analog signal processing, power-management, computation, data storage, security, and communication; non-silicon-, carbon-, organic-, metal-oxide-, compound-, wide-bandgap-semiconductor-, and nano-electronics circuits; flexible, large-area, stretchable, and printable electronics; 3D integration; spintronics; quantum, optical, new-device, and non-transistor-based circuits.
WIRELINE: Receivers/transmitters/transceivers for wireline systems, including backplane transceivers, optical links, chip-to-chip communications, 2.5/3D interconnect, copper cable links, and equalizing on-chip links; exploratory I/O circuits for advancing data rates, power efficiency, and equalization; building blocks for wireline transceivers (such as AGCs, analog and ADC/DAC-based front ends, equalizers, clock generation, and distribution circuits including PLLs, line drivers, and hybrids).
01月31日
2016
02月04日
2016
注册截止日期
2023年02月19日 美国
2023 IEEE International Solid- State Circuits Conference2022年02月20日 美国 San Francisco
2022 IEEE International Solid- State Circuits Conference2021年02月13日
2021 IEEE International Solid- State Circuits Conference2021年02月09日 美国 San Francisco
2021 IEEE International Solid- State Circuits Conference2020年02月02日 美国
2020 IEEE International Solid- State Circuits Conference2019年02月02日 美国 San Francisco,USA
2019 IEEE International Solid- State Circuits Conference2019年02月02日 美国
2019 IEEE International Solid- State Circuits Conference2018年02月11日 美国
2018 IEEE International Solid- State Circuits Conference -2018年02月04日 美国 San Francisco,USA
2018 IEEE International Solid- State Circuits Conference2017年02月05日 美国 San Francisco,USA
2017 IEEE International Solid- State Circuits Conference
留言