Overview   Artificial intelligence, and machine learning specifically, is transforming industries from Consumer to Industrial. To date, many applications host AI/ML inferencing on conventional computers in the cloud or locally. Meanwhile, edge computing is enabling other computing workloads to move from conventional information technology (IT) to lower-cost systems close to where data is generated. Although many AI/ML workloads run fine on edge systems’ CPUs, others are more intense: either multiple AI/ML functions must run simultaneously or performance requirements (e.g., frame rates) are too great. The solution to gaining the combined benefits of AI/ML and edge computing is acceleration. At the 2020 Consumer Electronics Show, NXP demonstrated the LS1046A-FRWY platform simultaneously running two or more high-intensity AI/ML functions. These include face recognition, object detection (both general and safety gear), posture recognition, and gaze detection. The scenario demonstrated is factory safety. An operator within a safety zone is monitored for attentiveness, personal protective equipment, and access control. Helping to make this possible is external acceleration based on the Google Edge TPU. Interfacing to the Layerscape LS1046A processor via its copious PCI Express ports, two M.2 TPU cards slotted in the FRWY system offload AI/ML inferencing. Based on the Layerscape LS1046A processor with four powerful Arm Cortex-A72 CPU cores, the compact, cost-effective LS1046A-FRWY platform gives developers a leg up on implementing high-performance AI/ML applications at the edge.   Diagram     Products Product Name LS1046A Freeway Board | NXP  Related Community Documents Document Name NXP Helps Industrial System Developers Apply AI/ML to Their Designs  Five Easy Steps To Deploy Machine Learning On Layerscape 

Demo Owner: Nicholas Sargologos Demonstration of the IoTgateway reference design based on QorIQ Processor LS1021A multicore - utilizing the Freedom board, the Node Red network configuration tool and IBM Cloud Services   Features Multi-protocol support for IoT devices and high speed WAN / LAN for cloud connectivity The demo supports two data flows using Open source MQTT messaging protocol. There are two nodes powered by Kinetis micro-controllers and IoT Gateway. Node 1 is equipped with a sensor cluster serves as a publisher Node 2 is connected to as small fan and serves as a subscriber MQTT flows are carried from the nodes and the Iot gateway via Wi-Fi Java based environment is used to establish connectivity between nodes   Featured NXP Products LS1021A Links Product Link LS1021A-IoT Gateway Reference Design LS1021A-IoT Gateway Reference Design | NXP  Freedom Development Platform for Kinetis® KL14, KL15, KL24, KL25 MCUs FRDM-KL25Z|Freedom Development Platform|Kinetis® MCU | NXP  Block Diagram   News Buzz IoT designs need to start in the right direction - Embedded Computing Design

Demo This demo showcases NXP’s MCUs, A70CM and NTAG I2C products, combined in an IoT development platform for industrial and home automation applications. Complementary Zentri software enables Wi-Fi connectivity, cloud-based device management and data analysis Features: The LPC43S67-A70CM Cloud Connectivity Kit, coupled with software from Zentri: Helps designers of embedded IoT products quickly build cloud-connected products without the need for deep expertise in security, Wi-Fi stacks, device commissioning, and cloud service APIs. Provides a complete hardware and software platform for evaluating and prototyping cloud-connected applications with IEEE 802.11b/g/n wireless connectivity based on the LPC43S6x microcontroller family and A70CM secure element. NTAG capability enables easy, secure commissioning and diagnosis by field personnel. _______________________________________________________________________________________________________ Featured NXP Products: LPC43S67-A70CM Cloud Connectivity Kit NT3H1101/NT3H1201 LPCXpresso IDE _______________________________________________________________________________________________________ Links Zentri – Securely Connect Your Products

FAST BOOT FOR lx2160 IN adas •Objective To speed ​​​​up bringup of LX2 chip-based systems •Pain Points to Address The bringup time is much longer than 3s, which is very sensitive in ADAS systems or time-sensitive systems. •Value Proposition / Key Features The guide can help customers shorten uboot time from 5s to less than 1.5s, saving more than 70% bootup time. •Deliverables Demo based on LX2160ARDB board. Reference codes and patches. Guide for Fast boot document. Fast boot 广泛用于嵌入式设备，现以lx2160ardb板为例进行相关探索。 启动流程： 优化思路： 1.适当提高FSPI时钟速率 diff --git a/lx2160asi/flexspi_divisor_32.rcw b/lx2160asi/flexspi_divisor_32.rcw index 422139c..0f8d5c9 100644 --- a/lx2160asi/flexspi_divisor_32.rcw +++ b/lx2160asi/flexspi_divisor_32.rcw @@ -7,8 +7,10 @@ * Modify FlexSPICR1 register, to increase FlexSPI clock closer to 50MHz, * with divisor value as 32. * => 750 * 2 / 32 ==> 46.875MHz + *write 0x1e00900,0x00000013 + * 0f -12 =125M */ .pbi -write 0x1e00900,0x00000013 +write 0x1e00900,0x0f .end ​ 2.关键路径优化 固化spd参数 固化ddrc参数 BL33 裁剪 详细patch和测试结果参考附件。

Demo In this demo, we are showing an 802.11AD 60GHz Wireless Demo with 3Gbps throughput using two LS1046ARDB (ARM Cortex A72 Quad Core) gateways and an LS1012ARDB gateway. These gateways simulate communication between stations. Products Product Link QorIQ® Layerscape 1012A Low Power Communication Processor Layerscape LS1012A Communication Processor for the IoT | NXP  QorIQ® LS1012A Development Board https://www.nxp.com/design/qoriq-developer-resources/qoriq-ls1012a-development-board:LS1012A-RDB?&fsrch=1&sr=2&pageNum=1 QorIQ® Layerscape 1046A and 1026A Multicore Communications Processors QorIQ® Layerscape 1046A | NXP  QorIQ® LS1046A Development Board QorIQ® LS1046A Development Board | NXP  Training New Kid on the Block - 60 GHz Wi-Fi 

Winners! NXP received a number of creative submissions over the course of the MRFX Design Challenge. We appreciate the enthusiasm from the community as designers were hard at work on their RF projects. Now is the moment everyone's been waiting for as NXP proclaims the MRFX Design Challenge winners. First Place Winner  Russell Kendrick | Bio + Full Project Description Project Video: MRFX1K80H 50 MHz Project Brief This amplifier is intended to be driven with a modern transceiver with 100 watts output on 50 MHz. To protect the MRFX1K80H from overdrive a series of RF pads are used to reduce the input to the proper level. The input matching is accomplished by using a 9:1 conventional RF transformer formed on an Amidon BN 61-202 core. An 82 nH inductance is in series with the high impedance winding of the transformer. This arrangement yielded an input match of 1.3:1 SWR over the entire 6-meter Amateur band when measured without the pads. Shunt gate resistance is used to prevent oscillation at low frequencies. This is the same approach used in the 27 MHz test circuit from NXP. Bias will be supplied by a DAC driven by the microcontroller that will manage the finished amplifier Second Place Winner        Floris Roosen | Bio                                                                         Project Video: Roosen Single-Ended Broadband (87-110 MHz) RF Design         Third Place Winner Mike Mysliwiec | Bio Project Video: 2xMRFX1K80H 1.8-54 MHz HF Amplifier   Overview  NXP is hosting an RF power amplifier design contest. Applicants will record a video of their power amplifier/demo using NXP’s new 65V LDMOS 1800 W RF Power transistor, MRFX1K80H The contest is open to students, professional engineers, companies or individuals Key Dates Contest kick-off: October 30, 2017 Submit a video (3-5 minutes in length) no later than Friday, January 26, 2018, by sending a link to any video website, such as YouTube, YouKu or others to rfindustrial@nxp.com Results will be announced on Monday, February 12, 2018 Prizes • 1st prize: $3,000 cash award + 15 MRFX1K80H samples. Showcase designer bio and video in an NXP blog • 2nd prize: $1,000 cash award + 10 MRFX1K80H samples • 3rd prize: $500 cash award + 10 MRFX1K80H samples The prize amounts are before tax All accepted videos will be posted on www.nxp.com/videos  Judging Criteria How to enter the competition Please click on the link below for the latest details and to access the MRFX Design Challenge page www.nxp.com/MRFXdesign 

Demo     Prescient’s PA Module Demo / product features (Value proposition) NXP’s cutting edge RF solution for medical applications Compelling portfolio at 2.45 GHz with 140 W–300 W output power, high VSWR NXP 140 W LDMOS inside Neuwave’s Certus 140 Ablation System for cancer NXP Recommends MRF24300N MRF7S24250N RF Industrial, Scientific and Medical      

Demo NXP boosts aerospace communications and radar performance for defense systems. See this demo for how our transistors deliver highest RF output power for radar and identification, friend-or-foe (IFF) systems     Demo / Product features MMRF1314H 1000 W Pulse 52 V LDMOS Transistor 100 W Peak, 1200-1400 MHz reference circuit Ceramic package NI-1230H-4S Internal prematch > 20:1 VSWR   MMRF1317H 1500 W Pulse 50 V LDMOS Transistor Highest power narrowband IFF transistor for defense and civil use Ceramic package NI-1230H-4S 1500 W Peak, 1030-1090 MHz reference circuit > 10:1 VSWR   MMRF1312H 1200 W Pulse 52 V LDMOS Transistor Highest power broadband L-Band transistor for military and civil use Ceramic package NI-1230H-4S 1200 W Peak, 900-1215 MHz reference circuit > 20:1 VSWR   NXP Recommends MMG2010N MMRF1317H MMRF1314 MMRF1312 MMRF5300 MMRF5301  

Demo This demo showcases NXP’s LPC4088 (running on OEM board with capacitive touchscreen) from Embedded Artists) running TouchGFX graphics, simulating a home energy monitoring application. Features: TouchGFX Software and LPC4000 series MCU enables smartphone look and feel in cost effective embedded display solutions. Power up the board via power connection to J9 (the only micro USB connection available). The demo should start running automatically with 2 or 3 seconds. _______________________________________________________________________________________________________ Featured NXP Products: LPC4088FBD144 LPC4088FET208| LPC4000 32-bit MCUs|ARM Cortex-M4 Cores|NXP C55B

Features Wide band amplifier 100W GaN 200 MHz - 2500 MHz Minimum 12 db Gain 40% efficiency Compact circuit Highest ruggedness capability in the industry — > 65:1 VSWR Highest gain figures in the industry — up to 26 dB Highest efficiency in the industry — up to 80% at P1dB Cost-effective, over-molded plastic packaging options Low thermal resistance air cavity packaging options Backed by NXP's secure volume manufacturing capability Proven reliability, quality and consistency Integrated ESD protection with greater negative gate-source voltage range for improved Class C operation World-class, global applications and design support Available to participate in NXP's longevity program (10 year or 15 year lifetime guarantee — more information) Field-proven high-voltage LDMOS process   Featured NXP Products MMRF5014H Links RF Military    

Demo NXP’s new Doherty amplifier-optimized power transistors provide high power, small footprints, and higher frequencies required for use in current and next-generation cellular base stations. The four new transistors collectively cover cellular bands from 1805 to 3600 MHz, meeting the needs of wireless carriers for superior performance at higher frequencies     Demo / product features A2G35S160-01S / A2G35S200-01S 48 V GaN Doherty Power Amplifier Solution Frequency 3400–3500 MHz Asymmetrical Doherty performance at 8 dB OBO Gain 13.8 Db Efficiency 45.8% Peak power 55.2 dBm NI-400S-2S package   A2G26H281-04S 48 V GaN Doherty Power Amplifier In-package Solution Frequency 2496–2690 MHz Doherty performance at 8 dB OBO Gain 15.3 dB Efficiency 57% Peak power 54.6 dBm NI-780S-4L package   A2G22S251-01S 48 V GaN Single-ended Transistor Frequency 1805–2200 MHz Class AB performance at 7 dB OBO Gain 18 dB Efficiency 35% Peak power 53.8 dBm NI-400S-2S package   NXP Recommends A2G22S251-01S – Single-ended GaN for 1805-2200 MHz cellular base stations A2G26H281-04S – In-package asymmetric Doherty GaN for 2496-2690 MHz cellular base stations A2G35S160-01S – Single-ended GaN for 3400-3600 MHz cellular base stations A2G35S200-01S – Single-ended GaN for 3400-3600 MHz cellular base stations   Fast Track 5G with NXP

Demo This demo showcases an OpenWRT based Thread Border router running on i.MX6UL and the various options to configure and use routing, firewall and out of band commissioning for Thread networks in combination with WiFi, Ethernet and NFC. OpenWRT is an open source Linux distribution for embedded devices specifically designed for residential gateways and routers. When enhanced with the Kinetis Thread protocol it offers the perfect solutions for creating a Linux based Thread Border Router   Large and dense mesh network consisting in 64+ Thread nodes Each node is router capable, network decides dynamically which nodes become active routers Multiple application functionality run in parallel: Device addressing and identification Lighting demonstration with multicast Occupancy sensing demonstration Border Router with Network management web GUI Features: Application layer communication based on generic CoAP framework CoAP messaging aligned with current ZigBee or OIC frameworks Kinetis KW2xD and Kinetis KW41 ARM Cortex-M4/M0+ MCUs with large on-board memory (up to 512KB flash/128 KB RAM) enable multiple applications to run on a common Thread IP network fabric. 1 i.MX6UL ARM Cortex-A7 with Kinetis KW2xD Linux Border Router used for interfacing with network management GUI Network management and interoperable Thread diagnostics framework used to monitor node state Nodes are enabled for OTA Updates ________________________________________________________________________________________________________ Featured NXP Products: KW2x |Kinetis KW2x 2.4 GHz RF MCUs|NXP KW41ZlKinetis BLE & 802.15.4 Wireless MCU|NXP i.MX Applications Processors|ARM® Cores|NXP i.MX6UltraLite Evaluation Kit|NXP ARM Cortex-M0+/M4 Cores|Kinetis W MCUs|NXP FRDM-KW24D512|Freedom Development Platform|Kinetis|NXP Thread Networking Protocol|NXP ________________________________________________________________________________________________________ C31

Demo Owner: Nik Jedrzejewski The PICO-IMX7-EMMC from TechNexion is a small footprint SOM equipped with a wide array of high-speed connectivity. ___________________________________________________________________________________________________________________ Featured NXP Products: i.MX 7 Series Applications Processors: Multicore, ARM® Cortex®-A7 Core, ARM Cortex-M4 Core External link Computex 2016

The Cypherbridge Systems SDKPac is a collection of embedded device SDKs and Toolkits that can be used out of box to add secure device connectivity to a target project. The SDKPac includes features and standards based protocols for secure IoT connect-to-cloud, gateway, embedded servers and clients, secure file transfer protocols, and electronic data privacy. This SDKPac demo kit contains applications for the FRDM-K64F Freedom Development Board to demonstrate: uSSL/TLS server demo - connect to the FRDM-K64F Development Board from desktop browser. uSSH server demo - connect to the FRDM-K64F Development Board from uSSH client. uFTP secure FTP file transfer client - connect from the FRDM-K64F Development Board to FTPS server using FTPS secure file transfer protocol. uMQTT subscribe and publish examples interfacing to broker service Just drag and drop any of these pre-built binary applications on the FRDM-K64F Development Board to hit the ground running with your SDKPac demo today.   https://community.nxp.com/players.brightcove.net/4089003392001/default_default/index.html?videoId=4282648281001   Features uSSL SDK micro-content HTTPS server uSSH SDK server for secure telnet replacement uFTPS Secure file transfer Toolkit and command line client uMQTT client mmCAU Crypto Engine Support Integrated with MQX/RTCS 4.1 OpenSDA CMSIS-DAP Debug using SWD connection USB Serial Port Interface 10/100 Ethernet   SDK Connectivity uSSL/TLS 1.2 server and client, X.509 uSSH 2.0 server and client uSCP Secure Copy Protocol uFTPS RFC 959, 2228, 4217 uMQTT 3.1 Client subscribe and publish Links SDKPac Follow up System Diagram Software Diagram  

Demo Demo shows LS1021A-IoT gateway solutions for the Smart Home, Industrial and City with fog/Edge to Cloud connectivity  Secure: Secure Boot, Secure Debug, Tamper Detect, Trust Zone and Trust Architecture support Acceleration & Offload:  >2Gbps IPSEC encrypted traffic Performance HW Cryptographic Accelerators, CAN & QUICC Engine for industrial protocols Video Surveillance: Secure Network Video Surveillance with > 60 channels   Product Link LS1021A-IoT Gateway Reference Design LS1021A-IoT Gateway Reference Design | NXP 

Demo High Performance Enterprise Access Point OEM Reference Solutions for Layerscape and QorIQ families.  Demo showcases 802.11AC based Enterprise Access Points showing >2.2Gbps of WIFI with Dual 11AC WIFI cards with very low CPU to provide head room for additional applications to be run.  OEM  Alpha Networks & Embedded Planet Reference Solutions for T1023 and LS1043 Features Wireless Performance up to 2.5Gbps Maximum ARM A53 or Power PC application headroom Proven Wireless partners Quantenna, Celeno & QCA Support for new multi-user MIMO transmission to groups of clients NXP Recommends QorIQ T1024/14 and T1023/13 Dual- and Single-Core C QorIQ LS1043A and LS1023A Multicore Communications

Demo Owner Jeff Steinheider   Streaming video over the LTE link + calls running between WCDMA phones running off the same BSC9132 device. Watch how this dual-mode enterprise picocell shows the capability of the QorIQ Processing Platforms Qonverge BSC9132 SoC with NXP's multimode LTE and WCDMA Layer 1 software.     Features Simultaneous LTE and WCDMA operation Provide solution to coverage and capacity concerns in enterprise and office environments Featured NXP Products Product Link QorIQ Qonverge® Platform: Baseband Processor QorIQ Qonverge® Platform: Baseband Processor | NXP  QorIQ® Qonverge BSC9132 Dual-core Processor and Dual-core DSP QorIQ® Qonverge B9132 | NXP  VortiQa Layer 1 Baseband Software https://www.nxp.com/design/software/development-software/vortiqa-software-for-networking/vortiqa-layer-1-baseband-software:VORTIQA_L1SW_SC?&tid=SWnT QorIQ® Qonverge BSC9132 QDS for Picocell Base Station Development https://www.nxp.com/design/qoriq-developer-resources/qoriq-qonverge-bsc9132-qds-for-picocell-base-station-development:BSC9132QDS?&parentCode=BSC9132 Block Diagram  

Demo Owner Daniel Viza   Features Tools that Integrates discrete instrumentation equipment into a single box along with an intuitive graphical user interface (GUI) Ability to see and store settings while the circuit operates in real time Featured NXP Products RF Power Tool Design Resources RF Power Tool Web page RF Power Tool Info document Block Diagram  

IoT Physical Components Gateways SoC i.MX 6UltraLite                                  Volansys Modular Gateway NXP Modules Supported PN7120 NFC, JN5169 ZigBee   Protocols Supported ZigBee, Thread, Bluetooth, Wi-Fi   User Compatibility MikroBus™ Compatible   Network Connectivity Ethernet, Wi-Fi   Form Factor 100mm x 150mm   Applications Smart Home Smart Building Smart Security Smart Healthcare Smart Energy     SOM MODULE SoC i.MX 6UltraLite                                                   Volansys i.MX6UL SOM for Modular Gateway Memory DRAM, DDR3, NAND Flash, EEPROM, eMMC I/O Interfaces CAN, I2C, SPI, UART, SDIO, PWM, JTAG, SAI, S/PDIF Form Factor 67.6mm x 45.0mm x 5.0mm Applications Energy management Systems IoT gateway Solutions Industrial HMI & Access Control Industrial control & automation Medical & Healthcare equipment Smart appliances Mobile POS & Secure e-commerce KW2XD Module SoC MKW24D512   Volansys KW24D Module (for use with Modular Gateway) or Edge Devices NXP Modules Supported Kinetis® KW2xD Applications Smart Energy M2M Automated meter reading Medical Network HVAC Control Lighting control Asset tracking Environment monitoring and control Protocols Supported Thread User Compatibility MikroBus Compatible Form Factor 24mm x 19mm   KW41Z Module SoC KW41Z512VHT4   Volansys KW41Z Module (for use with Modular Gateway) or Edge Devices     NXP Modules Supported Kinetis® KW41Z Protocols Supported Zigbee, Thread, Bluetooth User Compatibility MikroBus Compatible Form Factor     21mm x 16mm Applications Extremely low-power embedded systems Portable health care devices Wearable sports Fitness devices Computer keyboards and mice Gaming controllers Access control Security systems Smart energy Home area networks Automated meter reading Medical Network HVAC Control Lighting control Asset tracking Environment monitoring and control EDGE DEVICES NXP Modules Supported JN5169 , MKW2xD, MKW41Z   Volansys Modular Edge Node Platform (Supports Same Radio Modules as Modular Gateway) Protocols Supported Thread, ZigBee and BLE User Compatibility MikroBus Compatible Form Factor 74.98mm x 49.99mm Applications Smart Home Buildings Industries What this Demo is All About Video Link : 7307 Modular in design MikroBus Compatible Modules Supports ZigBee, Bluetooth, BLE, Thread, Wi-Fi (SigFox & Lora WAN coming soon) Seamless Integration of your module in our gateway Plug & use our modules to convert your products to solutions      Volansys' NXP Specific Capabilities Presentation. Volansys has created a KW2xD Thread ready module using NXPs' Kinetis KW22D512 Processor for adding thread support on Gateway. The Above Demo reflects controlling of NXPs' Thread End Devices through Volansys Gateway using a mobile application. The mobile application is developed on Android which can control the Thread End Devices sensors (LEDs, Accelerometer, Switch Press) Built using the IAR compiler Volansys IoT Gateway is a production ready modular design with effortless implementation and modification to manufacture your product and also provide a Connectivity solution to your product. KW2xD is a Thread ready module with MikroBus Compatibility for easy integration to convert your products to  Thread ready solutions. KW41Z is multi protocols supported module (Zigbee + Thread + BLE) with MikroBus Compatibility. NXPs' NFC Tap Commissioning helps faster connectivity to the Gateway. Volansys Gateway is also integrated with Amazon Alexa for controlling the IoT end devices using voice for effortless communication for the user. Volansys Overview Presentation Reach out to us If you have any questions or comments, don't see exactly what you need, etc. please feel free to follow up with one of our IoT product managers directly, the IoT Solutions Center Follow Up Team, or the IoT Solutions Center Community: NXPIOTCTR@nxp.com

FIDO enabled USB/NFC and BLE reference design allow secure access to cloud and IoT services   Background   The FIDO Alliance is working hard to change the way to authenticate to cloud services. And, as we demonstrate in this setup, its flexible design is also changing the way how we authenticate to IoT devices.           FIDO supported web services The list of FIDO U2F supported web services is growing   So far the following companies support FIDO U2F keys: Google Dropbox Github   FIDO U2F Authentication Keys The USB/NFC reference design provides USB for Laptop and PC  access while the NFC interface enables mobile devices like cell phones and tablets. The smart card form factor provides NFC and ISO7816 and can be used with traditional smart card readers as well as NFC enabled devices. The BLE reference design in combination with the A7x secure element enables U2F Authentication via the BLE interface.   FIDO U2F Server SurePassID Edge Server Cloud SurePassID Edge Server local Recommended Products Secure Element (A700x, A7101) Standard Microcontroller (LPC11Ux) Ultra Low Power BLE System-on-Chip Solution (QN9020) Dual-Core Communications Processor (LS1021A) FIDO U2F Server (SurePassID