All posts tagged: quark

The new Edison development platform is the latest in a series of low-cost and product-ready, general purpose computing platforms from Intel that aim to help lower the barriers to entry for all entrepreneurs, from hobbyists and makers to professional engineers and companies working with Internet-of-Things, wearable computing and consumer electronics applications and product development.

The Edison platform includes a robust set of features into its small size, delivering great performance, durability, and a broad spectrum of hardware I/O interfaces and software support. Those versatile features help meet the needs of a wide range of customers and market segments.

Although announced some time ago, the platform is finally in the retail market, which has waited patiently as the Edison packs a large amount of computing power, communications and networking capability into a small, compact package – including an Intel Atom dual-core system-on-chip, integrated Wi-Fi and Bluetooth Low Energy, along with a 70-pin miniature Hirose connector that exposes many GPIO pins and a wide range of different I/O interfaces for connectivity with external hardware.

With these features in mind, Edison is potentially a very useful platform for many of today’s networked, connected embedded computing and Internet-of-Things applications where more computing power is required than can be supplied by a typical low-cost microcontroller along with wireless connectivity.

Edison’s versatile features help this new computing platform to meet the needs of beginners to embedded computing, inventors and makers, as well as experienced users and of course a multitude of commercial applications.

Apart from the integrated hardware, thanks to the 70-pin connector there’s support for more than 30 different industry-standard hardware I/O interfaces – simplifying planning for and integration with peripheral devices and other hardware.

From a software perspective, Edison features out-of-the-box compatibility and support with software and tools such as Yocto Linux, the Arduino IDE, and the Python, Node.js and Wolfram languages. The Edison’s Intel Atom system-on-chip includes a dual-core CPU and an independent single-core microcontroller, integrated memory and storage.

You may be thinking that all this is great, however Edison isn’t suitable for portable applications due to a perceived power issue. Nothing could be further from the truth – although there’s a powerful dual-core processor, WiFi and Bluetooth Low Energy radios on board – it offers low power consumption and a small physical footprint.

Thus the Edison platform is attractive for applications that need a lot of processing power without the size or power consumption constraints of a larger PC or single-board computer. In standby mode with no RF communication, Edison’s power consumption is just 13 milliwatts, increasing to 22 milliwatts with Bluetooth LE active, or 35 milliwatts when Wi-Fi networking is enabled.

The core of Edison is its’ Intel Atom system-on-chip that includes a modern dual-core, dual-threaded 500 MHz CPU along with an independent 32-bit 100 MHz Intel Quark microcontroller, dual-band Wi-Fi, Bluetooth Low Energy, 4 Gb of EMMC non-volatile storage and 1 Gb of DDR3 memory – all in a tiny module the size of a postage stamp – ideal for Internet-of-Things applications.

The unique combination of small size, energy efficiency, computing power and storage, rich capabilities and ecosystem support provided by the Edison module and its surrounding ecosystem of modular hardware blocks inspires creativity and enables rapid innovation from prototype to production for professional, hobbyist or education users.

Created to facilitate rapid innovation, prototyping and product development, Edison can be configured to be interoperable with just about any device, allowing you to quickly prototype simple interactive designs or tackle more complex projects with an embedded computer that offers much more power, on-board storage and networking capability than a simple 8-bit microcontroller.

Intel Edison 2

Furthermore, the Edison platform also supports connectivity to Intel’s new Internet-of-Things Analytics Platform, which enables seamless device-to-device and device-to-cloud communications for your connected devices in Internet-of-Things applications.

However Intel doesn’t just leave you with hardware – their IoT Analytics Platform provides a range of foundational tools for collecting, storing and processing data from your Internet-of-Things networks and devices in the cloud, and for example provides the ability to run user-defined rules on your data stream that trigger alerts based on advanced analytics on the data coming in from your devices.

Overall the Edison offers the product designer an incredible range of hardware possibilities from a reputable brand that knows the business. However implementing your IoT or other product with Edison can be a challenge to get right the first time.

However you can remove the challenge of development by working with experienced partners such as our team here at the LX Group. We have the team, knowledge and experience to bring your ideas to life.

Getting started is easy – join us for an obligation-free and confidential discussion about your ideas and how we can help bring them to life – click here to contact us, or telephone 1800 810 124.

LX is an award-winning electronics design company based in Sydney, Australia. LX services include full turnkey design, electronics, hardware, software and firmware design. LX specialises in embedded systems and wireless technologies design.

Published by LX Pty Ltd for itself and the LX Group of companies, including LX Design House, LX Solutions and LX Consulting, LX Innovations.

 

Muhammad AwaisIntel Edison – closing the gap between the IoT and your products

One of the major hurdles of developing portable (and connected) devices is finding the balance between power consumption and battery storage that allows for a genuinely useful device and experience. Generally most components can be optimised through good design and wise choices, however the main microcontroller or CPU can be a sticking point – until now.

Intel have taken this problem to heart and as a solution, recently announced their “Quark” family of system-on-chip cores. They’re a family of low-power 32-bit CPU cores designed to compete with ARM’s Cortex-M series in modern Internet-of-Things and wearable embedded computing applications.

Quark is a very low-power and compact x86-compatible core designed to be even smaller and lower in power consumption than Intel’s low-power Atom CPU cores, which are targeted at tablets, low-power netbooks and smartphones.

Notably, Quark is the first Intel core that is fully synthesizable and designed for potential integration with third-party IP blocks. This means that a customer could use the Quark core, license it from Intel, and hook it to peripherals on a custom system-on-chip, like for example custom graphics, I/O, storage, 802.11 or 3G networking.

Intel Quark

It is claimed that Quark will be one-fifth of the size of the Atom core, and have one-tenth of the power consumption. At this level, Quark is much more powerful – and power hungry – than a lightweight 8-bit microcontroller, but it is also not a competitor to the more powerful ARM Cortex-A family either. It aims to compete with the popular Cortex-M family of 32-bit microcontroller cores from synthesizable microcontroller IP leader ARM.

The Quark core is a single-core, single-thread, low-power, small-footprint CPU core, and it is targeted at “Internet-of-Things” applications, wearable computing devices such as “smart watches”, and low-cost disposable medical devices as well as industrial and building automation control systems.

At this years’s Intel Developers Forum, a prototype “smartwatch” based on Quark technology was displayed as a proof of concept, along with a wearable instrumented patch for medical datalogging. Quark has been demonstrated in a prototype Internet-of-Things enabled HVAC automation application by HVAC leader Daikin. Daikin’s prototype system has WiFi and 3G support, and allows for secure remote control and monitoring.

The Quark product line is designed to slot in below the existing Atom family in terms of cost and power consumption, compatible with the Pentium instruction set architecture but aimed at markets where small form factor and low power consumption take priority, with a power consumption target that is apparently less than 100 milliwatts in some cases.

This power efficiency makes Quark attractive in wearable computing applications such as “smart watches” and Google Glass style wearable displays where battery capacity is very limited due to size constraints. Some bracelet-like wearable devices have been shown at this year’s Intel Developers Forum as a proof-of-concept of a wearable system powered by Quark technology.

Being smaller, lower power, and less powerful than Atom, Intel will be targeting the Quark product line at the Internet-of-Things market in applications where more power than a traditional embedded microcontroller is desirable or required, but less power consumption than an ordinary PC or notebook is desirable.

Quark is synthesizable, which means that customers can add their own IP around the core. ARM, for example, lets companies license its CPU cores and then add their own co-processors or other components to create chips optimised for a wide variety of projects and industries. How this would work in the case of Quark is not exactly clear however, since Intel plans to keep manufacturing of Quark silicon entirely in-house, at least initially.

This is a new move for Intel, but the company intends to retain control over their entire chip fabrication process in-house, bringing in existing customer IP for integration with Quark and in-house fab, although it is possible at least in principle that other foundries could fabricate Quark-based systems for licensees of the IP.

Intel Quark

Intel’s decision with Quark means leveraging its own IP in a way that lets it offer customisable hardware to potential customers, without giving up control of either its processor IP or its own fab capabilities. Designers will not be allowed to customise the Quark core, they can only connect third-party IP blocks to its fabric.

Quark’s partially-open fabric appears to be somewhat derivative of ARM’s long-standing and successful policy of licensing its Cortex IP to other chip makers in a synthesizable form. ARM Cortex M3 and M4 cores have been rapidly stealing market share away from other microcontroller platforms in recent years – since the 32-bit architecture offers significant performance gains over 8-bit platforms such as PIC or AVR.

Furthermore their Cortex-M3 is finding its way into smartwatches such as the Sony SmartWatch 2 and the Qualcomm Toq as well as wireless sensor network system-on-chips such as TI’s CC2538 802.15.4/ZigBee/6LoWPAN platform. However as the Quark matures we’re sure it will be a successful player in the portable device and IoT arena.

Technologies such as Intel’s Quark are an example of how technology is constantly improving, and with the right knowledge it can be used to your advantage. However there are also many existing power-saving chipsets on the market your team may not be aware of, or unsure about taking on a new development platform.

But don’t let that get in the way of improving your existing or new designs – if you’re not sure about your options, discuss them with a team that understands the latest technologies, platforms and how to integrate them for your advantage – the team at the LX Group.

Getting started is simple – for a confidential discussion about your ideas and how we can help bring them to life – click here to contact us, or telephone 1800 810 124.

LX is an award-winning electronics design company based in Sydney, Australia. LX services include full turnkey design, electronics, hardware, software and firmware design. LX specialises in embedded systems and wireless technologies design. https://lx-group.com.au

Published by LX Pty Ltd for itself and the LX Group of companies, including LX Design House, LX Solutions and LX Consulting, LX Innovations.

 

Muhammad AwaisIntel announces the new Quark family of SoC Cores