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NTLab is a vertically integrated microelectronics design center. It has 70+ experienced and qualified engineers.
NTLab specializes in the designing of mixed-signal and RF ICs and Systems-on-Chip. It has a wide range of own silicon-verified IP blocks: processor cores, interfaces, analog and high-frequency PHYs, etc., thus allowing customized design to be fast and predictable. In-company unique combination of competences in digital, analog and RF circuits and embedded software enables NTLab to participate in the projects that require deep research and utilize most sophisticated and advanced techniques: multi-system GPS/GLONASS/Galileo/BeiDou/NavIC(IRNSS)/QZSS/SBAS navigation, RF ID, wireless communications, etc. All designed ICs are provided with test and development tools, as well as with reference software.
NTLab offers a wide range of silicon proven analog/mixed-signal IPs in 0.35µm, 0.25 µm, 0.18 µm, 0.13 µm, 0.09 µm, 65nm, 55nm, 40nm, 28nm, 22 nm CMOS and SiGe BiCMOS processes. These IPs are suitable for devices targeted both consumer and industrial markets.
Most of these IPs have been proven in silicon on the foundries: Samsung, UMC, GlobalFoundries, SMIC, VIS, Tower, X-FAB, iHP, AMS, SilTerra, STMicroelectronics, Winfoundry.
Learn more about EEPROM IP core
EEPROM memory, which recently celebrated its 50th birthday, continues to defy obsolescence. Despite its age, EEPROM remains a mature, reliable, and affordable technology for many electronic systems. As IC designers embed EEPROM onto chips, it has become an integral part of chip design, offering essential benefits to applications such as MCU, PMIC, sensors, and RFID tags.
A growing number of ASICs, microcontrollers and SoCs embed hardware cryptographic accelerators or software cryptographic libraries. The emergence of the Internet of Things (IoT) will call for an even faster adoption. We now can talk about cryptography pervasion.
We are living in an age where we generate the same amount of data each year that has been generated since antiquity. Ever wondered how and where these peta /exa/zetta bytes of data are stored?
This paper describes a CSoC platform and configurable digital subsystem IP which can be deployed for development of IOT edge devices. The paper encompasses the different attributes of IOT edge device that can cater multiple industry segments, key features and benefits of CSoC platform, components of the digital subsystem IP that enables rapid prototyping of SoCs for IOT applications.
The Internet of Things (IoT) is the latest buzzword driving the industry for any number of low-power interconnected things. However, the IoT encompasses an incredible number of different types of things ranging from edge objects, namely smart or wearable devices which are battery powered with sensors and wireless connectivity, through aggregation nodes, namely hubs, routers and gateways for data aggregation, up to information processing servers in the Cloud to handle the data pushed by edge objects.
