V2X technology has the potential to drastically reduce road accidents and improve the traffic flow by fusing in-car sensor data with data obtained from other road users and from the surrounding infrastructure - visibly or unvisbily and far beyond the driver's line of sight. Vehicle to cloud data communication provides a pathway for anonymous data collection and dissemination. When the true potential for V2X is realized and it becomes a true part of the vehicle safety system it is vital that the authenticity and security of data are guaranteed. In addition, the vehicle control units that coordinate active stability systems must be protected against external influences that might subvert the mechanisms design. This presentation will explore the various security countermeasures needed to make V2X a safe and secure technology for the future. Watch Video Presentation

An overview of the i.MX 6 series of applications processors. Learn about the features, target applications and enablement of these performance scalable multicore platforms that include single-, dual- and quad-core families based on the ARM® Cortex® architecture, based on Cortex-A7, Cortex-A9 and combined Cortex-A9 + Cortex-M4 solutions up to 1.2 GHz. Watch Video Presentation

Automotive headlamp technology is rapidly changing. LEDs are used increasingly in automotive lighting applications to enable creative design elements, improve system efficiency and enable advanced driver assistance system (ADAS) features. Car makers and lighting tier 1s are looking for flexible and scalable solutions that can quickly enable ADAS functionality across multiple car platforms to increase re-use and reduce development time and cost. NXP has released a state of the art Multichannel LED driver portfolio to address these emerging advanced lighting applications. The LED drivers provide all the necessary functionality to ensure a compact, low-cost and flexible design for advanced LED headlights. In this session learn how our LED drivers address the key trends and current and future requirements for advanced LED headlights. See the demo for your self! Watch Video Presentation

Low-power is a system level challenge. Unfortunately, there is not just one feature that resolves the challenge. With LPC, we will focus on delivering low-power capabilities across a broad range of products: Low-power boot, intelligent clocking, ultra-efficient processing, flexible low-power modes and autonomous, low-power peripherals. In this session, we focus on each one of these capabilities, how they address the challenges of designing low-power applications and highlight differentiators LPC MCUs offer the low-power market. What's the most efficient way to communicate with peripherals, how to optimize data transfers, the effects different power modes and clock gating functions have on energy. This session discusses these topics plus explains how one can leverage the unique modes and features available on LPC MCUs to improve energy efficiency of IoT applications and other embedded systems.

During this course we will review how to use the new analog Freedom board FRDM-12XSF available for 12V eXtreme Switch devices thanks to the analog Processor Expert software and Kinetis Design Studio component. This training will cover full system enablement from hardware (MCU + analog), software (MCU agnostic) perspectives and demonstrate how to quickly drive different type of loads (resistive, inductive and capacitive). Thanks to its processor eXpert component, the interaction between MCU, sensor and our device will be facilitate, this training will cover different exercise to make the trainee fully enabled.

As IoT technologies and markets explode, selecting the right set of tools to get an idea off the ground as quickly as possible becomes a necessity for modern developers, PixiePro has the right set of performance and connectivity options to empower your next big project.

Detailed training session on developing with the LPCXpresso Ecosystem, showing the main features of the tools, from project import/creation, multi-core debug and power optimization. The LPCXpresso boards and IDE toolchain will be used with the latest version of LPCOpen peripheral driver examples. We will cover some cool new features including trace and power analysis.

This session will provide an overview of the QorIQ security accelerator block, its device driver, and its use in IPsec and SSL acceleration. Watch Video Presentation

A look at new types of low- or battery-powered and space-constrained applications made possible be the latest innovations in communications processors, including portable storage, IoT Gateways and embedded control.

Learn how Qt for Device Creation may be used to create advanced user interfaces in a few simple steps. Qt is a cross-platform C++ framework that offers tools to create modern and fluid user experiences. The Qt framework may utilize the OpenGL ES capable i.MX6 or perform simplified rendering for the new i.MX7. We will take a look at Qt and use Qt for Device Creation to develop a GUI application optimized for projects requiring low power and real-time tasks which are suitable for wide-range of industrial applications, while keeping advanced security features to be used in IoT applications—all with confidence and convenience. Attendees will discover how easily it is to enable a low power device with performant GUI effects. This evolution requires virtually no changes to the software or hardware -- made possible by the Qt Framework and standardized pin-compatible computer modules from Toradex.

This session will provide a detailed introduction to NXP's HomeKit Software Development Kit (SDK) architecture, APIs and code adaptors. Through hands-on examples, you will learn accessory profile configurations, how to integrate with accessory application software, and how to build and debug a demo accessory (Restricted to verified MFi licensees only).

This hands-on workshop provides a detailed architecture description of Thread technology and wireless mesh networking. The main Thread concepts will be reviewed and analyzed thoroughly. The attendee will have a deep understanding of the main concepts and how these are mapped to the NXP software API. The session will close with hands-on training to enable the attendee to understand software usage and configuration, low-power features and security concepts.

The NXP supply chain team will present an overview of the new NXP global manufacturing footprint, as well as integrated strategies for supply assurance and crisis management. An overview of current supply chain systems integration activities will be discussed as well as customer order management strategies moving forward. A special focus will be placed on highlighting changes that will affect NXP customers. Watch Video Presentation

IoT applications often share some basic requirements; the applications themselves need to be small, fast and low-energy, while the time to market should be as short as possible. To help you meet these demands, a wide range of possibilities and techniques for performing smart debugging of code is actually already at your fingertips. At this session you will learn how to use debug features like various types of complex breakpoints, macros, stack checking, event logging, live data, profiling and runtime code analysis in a smart way for comprehensive debugging of your code.

One particular wave of innovation in the world of ARM is an increase in heterogeneous CPU designs, where different classes of ARM processor are implemented on the same device. NXP are at the forefront of this wave. For example the i.MX 7 family of devices implement both a Cortex-A7 application processor and a Cortex-M4 embedded processor. In this session we will discuss the challenges that such a design brings to a developer, as well as how with DS-5, ARM gives you a powerful tool to address them.

Saving Space in your Reference Design with eSIM. eSIM (eUICC) and what it means for chipset makers and device OEMs. Today consumers want bigger screens, more battery life, more storage, more rich media content etc. The (R) evolution that eSIM will create is unique, disruptive and can be compared to the time when black and white TV went to Color. The OEMs are adopting slowly, but like the days of B&W TV, the networks weren’t ready, and neither are the Mobile operators in the case of eSIM!

Develop your IoT and wearable applications with Hexiwear, an open source, expandable development platform. The platform is expandable with the option to add 180+ additional sensors through click boards.

There are many variables to consider when implementing and integrating solid state RF power into a cooking appliance. Cavity size and shape, RF feed type, power, thermals, and configuration all factor into design consideration. This session will cover key consideration and methods of simulating to achieve better system design. Watch Video Presentation

NFC pairing makes life in a multi-device world more convenient. Tap-to-pair has become a common habit when connecting an NFC-enabled smartphone conveniently to a wireless speaker. Bringing this experience to the next level, even a multi-speaker audio system can be set up with NFC. If all speakers are equipped with an NFC chip, you simply tap one speaker to another to establish the Bluetooth® connection. That's what we call a true wireless stereo system - and it works with any phone, no matter if it is NFC-enabled. Same use case can be shown with NFC headsets. The workshop will guide participants through the implementation of an NFC, Bluetooth and Wi-Fi pairing use case. All participants should bring an NFC Enabled Android Device running Android version (Kit Kat) 4.4x or higher. In addition please install "NFC TagWriter" and "NFC TagInfo" from the Google Play Store.