Toradex Strengthens Custom Solutions Offering with Acquisition of Linear Comp...Toradex
April 24, 2024, Horw, Switzerland: Toradex, a trusted leader in embedded systems, is pleased to announce the integration of Linear Computing Inc. (LCI) into its fold. This strategic acquisition marks a significant step forward in Toradex's commitment toward making embedded computing easy, offering tailored solutions to meet customers' project requirements with unparalleled ease.
Introducing Aquila: The Next Generation Toradex SoM FamilyToradex
April 4, 2024, Horw, Switzerland: Toradex, a leading embedded systems solutions provider, has launched its newest family of pin-compatible and scalable System on Modules (SoMs) - Aquila.
Toradex's impact in the APAC region continues to grow as the company prepares to participate in the upcoming Japan IT Week Spring 2024 where it will unveil its latest and innovative solutions.
Horw, Switzerland, 07 November 2023: Toradex, a leader in Industrial IoT, Edge, and embedded computing solutions, today announced the start of the early access program in collaboration with NXP® Semiconductors for the i.MX 95 Titan EVK - Toradex’s Evaluation Kit (EVK) based on NXP’s flagship i.MX 95 applications processors family - featuring NXP eIQ® Neutron NPU, Arm® Mali™ GPU, NXP image signal processor, and multiple compute domains in a functional safety development platform- at the NXP Tech Day held in Detroit, Michigan. Toradex was chosen by NXP to support its Early Access Program to accelerate the adoption of the i.MX 95 applications processor in key markets and applications.
NXP Semiconductors elevates Toradex to Platinum Partner statusToradex
24 January 2023, Horw, Switzerland: Toradex, a leader in IoT and embedded computing solutions, announces that NXP® Semiconductors has elevated it to Platinum Partner status, the highest level a partner can obtain within NXP’s longstanding Global Partner Program.
Webinar: Secure Offline and Online Updates for Linux DevicesToradex
In this webinar, we will discuss common ways to do offline updates and the pros and cons in regards to reliability and security. We will demonstrate how to bring offline updates onto embedded/IoT Linux devices.
Toradex opens office in Tokyo, reaffirming its growth strategy in the Asia-Pa...Toradex
Toradex, a leader in embedded computing, today announced the opening of its office in Tokyo, Japan. This move reiterates the company’s commitment to the Asia-Pacific region. Toradex has partnered with key distributors in Japan over the years to enable the widespread availability of its products.
Toradex Strengthens Custom Solutions Offering with Acquisition of Linear Comp...Toradex
April 24, 2024, Horw, Switzerland: Toradex, a trusted leader in embedded systems, is pleased to announce the integration of Linear Computing Inc. (LCI) into its fold. This strategic acquisition marks a significant step forward in Toradex's commitment toward making embedded computing easy, offering tailored solutions to meet customers' project requirements with unparalleled ease.
Introducing Aquila: The Next Generation Toradex SoM FamilyToradex
April 4, 2024, Horw, Switzerland: Toradex, a leading embedded systems solutions provider, has launched its newest family of pin-compatible and scalable System on Modules (SoMs) - Aquila.
Toradex's impact in the APAC region continues to grow as the company prepares to participate in the upcoming Japan IT Week Spring 2024 where it will unveil its latest and innovative solutions.
Horw, Switzerland, 07 November 2023: Toradex, a leader in Industrial IoT, Edge, and embedded computing solutions, today announced the start of the early access program in collaboration with NXP® Semiconductors for the i.MX 95 Titan EVK - Toradex’s Evaluation Kit (EVK) based on NXP’s flagship i.MX 95 applications processors family - featuring NXP eIQ® Neutron NPU, Arm® Mali™ GPU, NXP image signal processor, and multiple compute domains in a functional safety development platform- at the NXP Tech Day held in Detroit, Michigan. Toradex was chosen by NXP to support its Early Access Program to accelerate the adoption of the i.MX 95 applications processor in key markets and applications.
NXP Semiconductors elevates Toradex to Platinum Partner statusToradex
24 January 2023, Horw, Switzerland: Toradex, a leader in IoT and embedded computing solutions, announces that NXP® Semiconductors has elevated it to Platinum Partner status, the highest level a partner can obtain within NXP’s longstanding Global Partner Program.
Webinar: Secure Offline and Online Updates for Linux DevicesToradex
In this webinar, we will discuss common ways to do offline updates and the pros and cons in regards to reliability and security. We will demonstrate how to bring offline updates onto embedded/IoT Linux devices.
Toradex opens office in Tokyo, reaffirming its growth strategy in the Asia-Pa...Toradex
Toradex, a leader in embedded computing, today announced the opening of its office in Tokyo, Japan. This move reiterates the company’s commitment to the Asia-Pacific region. Toradex has partnered with key distributors in Japan over the years to enable the widespread availability of its products.
Verdin provides developers with intuitive access to the latest interfaces and all Toradex module families with excellent pin-compatibility for cost, performance and scalability.
Ethernet compliance test is a hard task, but we make it much easier for you. Learn more from the basics to automotive Ethernet and how we do our tests, thereby simplifying things for you when designing a custom carrier board. http://bit.ly/2SBGTNO
Webinar On-demand: Introducing the new Colibri SoM based on the NXP i.MX 6ULL...Toradex
In this guest webinar with NXP, you will be introduced to our new Colibri SoM based on the NXP’s power-efficient and cost optimized applications processor – the i.MX 6ULL SoC. Toradex’s Colibri iMX6ULL features Wi-Fi and Bluetooth, secure encryption, and a wide range of other interfaces for connecting peripherals such as sensors, GPS, displays and camera sensors.
Here's our latest blog post, written by our Leonardo Veiga, FAE, Toradex Brasil, shows you how to use computer vision in embedded systems, by employing the OpenCV in Computer on Modules (CoMs) equipped with NXP i.MX 6 processors. Read on here: http://bit.ly/2Bf1jCS
Toradex's latest blog post written by Leonardo Graboski Veiga, FAE, Toradex Brasil, shows you how to provision an Ubuntu Server 16.04 LTS virtual machine in Microsoft Azure, and use Yocto/OpenEmbedded to generate an embedded Linux image. Read on here: https://www.toradex.com/blog/cloud-aided-yocto-build-speedup
We pulled off a whirlwind video mashup showcasing Toradex’s cross-functional, multicultural industry experts in action. Take a look! http://bit.ly/2f4x0Za
Considerations on usage of Computer on Modules for Applications inside Emerge...Toradex
In this guest blog post, Diamond Systems explains considerations to use Computer Modules for an application inside an emergency response vehicle. Diamond Systems is a valued member of the Toradex Partner Network providing off-the-shelf ready-to-use Carrier Boards for Toradex Modules.
Customizable Embedded 3D Surround View Turn-Key Solution on Apalis iMX6 SoMToradex
Toradex's partner TES Electronic Solutions GmbH presents a customizable 3D Surround View Turn-Key solution based on the Toradex Apalis iMX6 SoM that can be quickly adapted concerning the specific requirements of the targeted vehicle. Read more in their guest blog post here: https://www.toradex.com/blog/customizable-embedded-3d-surround-view-turn-key-solution-apalis-imx6-som
288 Core ARM® and 13’824 CUDA Core Microserver Cluster with Toradex Apalis Sy...Toradex
We’re excited to welcome Christmann into the Toradex Partner Program. Christmann brings forth its exciting 288 Core ARM® and 13’824 CUDA core microserver cluster with Toradex Apalis System on Modules.
First Steps Developing Embedded Applications using Heterogeneous Multi-core P...Toradex
Read our blog for the latest on demystifying the development of embedded systems using Heterogeneous Multicore Processing architecture powered SoCs! This might provide you with the jump start you need for your development. https://www.toradex.com/blog/first-steps-developing-embedded-applications-using-heterogeneous-multicore-processors
Developing Real-Time Systems on Application ProcessorsToradex
Guaranteeing real-time and deterministic behavior on SoC-based systems can be challenging. In this blog post, we offer three approaches to add real-time control to systems that use a SoC running a feature-rich OS such as Linux. https://www.toradex.com/blog/developing-real-time-systems-on-application-processors
Development of Real-Time Systems with Embedded LinuxToradex
Learn about different approaches for the development of deterministic systems (Real-Time Embedded Systems) in NXP's i.MX 6 and i.MX 7 series applications processors. This includes the use of Embedded Linux with Real-Time Paths, Real-Time Linux, Xenomai and Heterogeneous multi-core processing with NXP i.MX 7 SoC. Watch our exiting webinar video here: https://www.toradex.com/webinars/development-of-real-time-systems-with-embedded-linux
Azure IoT Hub on a Toradex Colibri VF61 – Part 3: Using Cloud Services to col...Toradex
Read our last blog in a three-part series to gain in-depth understanding of building an IoT application based on Toradex System on Modules. Learn how to use Microsoft Azure cloud services like Stream Analytics and PowerBi to provide easily understandable data visualization and business intelligence. The embedded system chosen for this purpose was a Toradex customized Single Board Computer solution: the Colibri VF61 SoM + the Iris Carrier Board. Read our last blog in a three-part series here: https://www.toradex.com/blog/azure-iot-hub-colibri-vf61-using-cloud-services-to-collect-business-intelligence-part-3
Azure IoT Hub on a Toradex Colibri VF61 – Part 2 - Interfacing sensors and th...Toradex
Check out our second blog post in a three-part series to gain in-depth understanding of building an IoT application based on Toradex System on Modules. The embedded system chosen for this purpose was a Toradex customized SBC solution: the Colibri VF61 SoM + the Iris Carrier Board. Learn the intricacies of reading the field sensors and sending information to the cloud using Microsoft Azure IoT services, demonstrated via an IoT car. Read our second blog in a three-part series here: https://www.toradex.com/blog/azure-iot-hub-colibri-vf61-interfacing-sensors-iot-car-part-2
Read our blog which describes our IoT parking lot demo and the technology behind it. We will also tell you how to use Azure IoT Hub to send messages between Azure services and devices to achieve the same level of communication we had in our demo. You will learn about the different modules we have used in our demo and how to develop simple applications using Azure IoT Hub.
Azure IoT Hub on a Toradex Colibri VF61 – Part 1 - Sending data to the cloudToradex
The concept of the Internet of Things is intrinsically related to the sending of data to the internet and its so-called cloud services. Learn how to join a Toradex Single Board Computer solution with the Azure IoT Hub service to send and receive messages in our next blog. It will help you to develop an IoT application which can read field sensors, present results, and demonstrate business intelligence. Toradex is an Azure IoT certified partner.
How to Use GSM/3G/4G in Embedded Linux SystemsToradex
The number of embedded devices that are connected to the internet is growing each day. Nowadays, they are installed majorly using a wireless connection. They need mobile network coverage to be connected to the internet. Read our next blog which tells you about the various configurations to connect a device such as Colibri iMX6S with the Colibri Evaluation Board running Linux to the internet through the PPP (Point-to-Point Protocol) link. Read More: https://www.toradex.com/blog/how-to-use-gsm-3g-4g-in-embedded-linux-systems
Toradex Expands Product Portfolio with New Embedded Computer Based on NXP® I....Toradex
Toradex has launched two new feature-packed System on Modules (SOM) based on the NXP® i.MX 7 series applications processors. The modules are designed to offer high-performance at ultra-low power consumption. They also come with advanced security features and heterogeneous multicore architecture based on ARM® Cortex-A7 and Cortex-M4 cores. It makes the modules an ideal fit for products aimed at the IoT market.
Webinar: Embedded Linux Boot Time OptimizationToradex
Did you miss out on joining us for our last webinar? We have made this webinar available on-demand for you so that you can watch it at your convenience. Watch it to know about the various ways using which you can reduce the system boot time on Linux. Read More: https://www.toradex.com/webinars/embedded-linux-boot-time-optimization
Technological Trends in the Field of Circuit Board Design and ManufacturingToradex
Circuit boards are extensively used across in the electronics industry. So much so that nowadays a circuit board designer is expected to be also proficient in the manufacturing technology apart from understanding electrical engineering. Read this article which will provide you with an insight on the various current and emerging technological trends prevailing in the manufacture of printed circuit boards.
Verdin provides developers with intuitive access to the latest interfaces and all Toradex module families with excellent pin-compatibility for cost, performance and scalability.
Ethernet compliance test is a hard task, but we make it much easier for you. Learn more from the basics to automotive Ethernet and how we do our tests, thereby simplifying things for you when designing a custom carrier board. http://bit.ly/2SBGTNO
Webinar On-demand: Introducing the new Colibri SoM based on the NXP i.MX 6ULL...Toradex
In this guest webinar with NXP, you will be introduced to our new Colibri SoM based on the NXP’s power-efficient and cost optimized applications processor – the i.MX 6ULL SoC. Toradex’s Colibri iMX6ULL features Wi-Fi and Bluetooth, secure encryption, and a wide range of other interfaces for connecting peripherals such as sensors, GPS, displays and camera sensors.
Here's our latest blog post, written by our Leonardo Veiga, FAE, Toradex Brasil, shows you how to use computer vision in embedded systems, by employing the OpenCV in Computer on Modules (CoMs) equipped with NXP i.MX 6 processors. Read on here: http://bit.ly/2Bf1jCS
Toradex's latest blog post written by Leonardo Graboski Veiga, FAE, Toradex Brasil, shows you how to provision an Ubuntu Server 16.04 LTS virtual machine in Microsoft Azure, and use Yocto/OpenEmbedded to generate an embedded Linux image. Read on here: https://www.toradex.com/blog/cloud-aided-yocto-build-speedup
We pulled off a whirlwind video mashup showcasing Toradex’s cross-functional, multicultural industry experts in action. Take a look! http://bit.ly/2f4x0Za
Considerations on usage of Computer on Modules for Applications inside Emerge...Toradex
In this guest blog post, Diamond Systems explains considerations to use Computer Modules for an application inside an emergency response vehicle. Diamond Systems is a valued member of the Toradex Partner Network providing off-the-shelf ready-to-use Carrier Boards for Toradex Modules.
Customizable Embedded 3D Surround View Turn-Key Solution on Apalis iMX6 SoMToradex
Toradex's partner TES Electronic Solutions GmbH presents a customizable 3D Surround View Turn-Key solution based on the Toradex Apalis iMX6 SoM that can be quickly adapted concerning the specific requirements of the targeted vehicle. Read more in their guest blog post here: https://www.toradex.com/blog/customizable-embedded-3d-surround-view-turn-key-solution-apalis-imx6-som
288 Core ARM® and 13’824 CUDA Core Microserver Cluster with Toradex Apalis Sy...Toradex
We’re excited to welcome Christmann into the Toradex Partner Program. Christmann brings forth its exciting 288 Core ARM® and 13’824 CUDA core microserver cluster with Toradex Apalis System on Modules.
First Steps Developing Embedded Applications using Heterogeneous Multi-core P...Toradex
Read our blog for the latest on demystifying the development of embedded systems using Heterogeneous Multicore Processing architecture powered SoCs! This might provide you with the jump start you need for your development. https://www.toradex.com/blog/first-steps-developing-embedded-applications-using-heterogeneous-multicore-processors
Developing Real-Time Systems on Application ProcessorsToradex
Guaranteeing real-time and deterministic behavior on SoC-based systems can be challenging. In this blog post, we offer three approaches to add real-time control to systems that use a SoC running a feature-rich OS such as Linux. https://www.toradex.com/blog/developing-real-time-systems-on-application-processors
Development of Real-Time Systems with Embedded LinuxToradex
Learn about different approaches for the development of deterministic systems (Real-Time Embedded Systems) in NXP's i.MX 6 and i.MX 7 series applications processors. This includes the use of Embedded Linux with Real-Time Paths, Real-Time Linux, Xenomai and Heterogeneous multi-core processing with NXP i.MX 7 SoC. Watch our exiting webinar video here: https://www.toradex.com/webinars/development-of-real-time-systems-with-embedded-linux
Azure IoT Hub on a Toradex Colibri VF61 – Part 3: Using Cloud Services to col...Toradex
Read our last blog in a three-part series to gain in-depth understanding of building an IoT application based on Toradex System on Modules. Learn how to use Microsoft Azure cloud services like Stream Analytics and PowerBi to provide easily understandable data visualization and business intelligence. The embedded system chosen for this purpose was a Toradex customized Single Board Computer solution: the Colibri VF61 SoM + the Iris Carrier Board. Read our last blog in a three-part series here: https://www.toradex.com/blog/azure-iot-hub-colibri-vf61-using-cloud-services-to-collect-business-intelligence-part-3
Azure IoT Hub on a Toradex Colibri VF61 – Part 2 - Interfacing sensors and th...Toradex
Check out our second blog post in a three-part series to gain in-depth understanding of building an IoT application based on Toradex System on Modules. The embedded system chosen for this purpose was a Toradex customized SBC solution: the Colibri VF61 SoM + the Iris Carrier Board. Learn the intricacies of reading the field sensors and sending information to the cloud using Microsoft Azure IoT services, demonstrated via an IoT car. Read our second blog in a three-part series here: https://www.toradex.com/blog/azure-iot-hub-colibri-vf61-interfacing-sensors-iot-car-part-2
Read our blog which describes our IoT parking lot demo and the technology behind it. We will also tell you how to use Azure IoT Hub to send messages between Azure services and devices to achieve the same level of communication we had in our demo. You will learn about the different modules we have used in our demo and how to develop simple applications using Azure IoT Hub.
Azure IoT Hub on a Toradex Colibri VF61 – Part 1 - Sending data to the cloudToradex
The concept of the Internet of Things is intrinsically related to the sending of data to the internet and its so-called cloud services. Learn how to join a Toradex Single Board Computer solution with the Azure IoT Hub service to send and receive messages in our next blog. It will help you to develop an IoT application which can read field sensors, present results, and demonstrate business intelligence. Toradex is an Azure IoT certified partner.
How to Use GSM/3G/4G in Embedded Linux SystemsToradex
The number of embedded devices that are connected to the internet is growing each day. Nowadays, they are installed majorly using a wireless connection. They need mobile network coverage to be connected to the internet. Read our next blog which tells you about the various configurations to connect a device such as Colibri iMX6S with the Colibri Evaluation Board running Linux to the internet through the PPP (Point-to-Point Protocol) link. Read More: https://www.toradex.com/blog/how-to-use-gsm-3g-4g-in-embedded-linux-systems
Toradex Expands Product Portfolio with New Embedded Computer Based on NXP® I....Toradex
Toradex has launched two new feature-packed System on Modules (SOM) based on the NXP® i.MX 7 series applications processors. The modules are designed to offer high-performance at ultra-low power consumption. They also come with advanced security features and heterogeneous multicore architecture based on ARM® Cortex-A7 and Cortex-M4 cores. It makes the modules an ideal fit for products aimed at the IoT market.
Webinar: Embedded Linux Boot Time OptimizationToradex
Did you miss out on joining us for our last webinar? We have made this webinar available on-demand for you so that you can watch it at your convenience. Watch it to know about the various ways using which you can reduce the system boot time on Linux. Read More: https://www.toradex.com/webinars/embedded-linux-boot-time-optimization
Technological Trends in the Field of Circuit Board Design and ManufacturingToradex
Circuit boards are extensively used across in the electronics industry. So much so that nowadays a circuit board designer is expected to be also proficient in the manufacturing technology apart from understanding electrical engineering. Read this article which will provide you with an insight on the various current and emerging technological trends prevailing in the manufacture of printed circuit boards.
セル生産方式におけるロボットの活用には様々な問題があるが,その一つとして 3 体以上の物体の組み立てが挙げられる.一般に,複数物体を同時に組み立てる際は,対象の部品をそれぞれロボットアームまたは治具でそれぞれ独立に保持することで組み立てを遂行すると考えられる.ただし,この方法ではロボットアームや治具を部品数と同じ数だけ必要とし,部品数が多いほどコスト面や設置スペースの関係で無駄が多くなる.この課題に対して音𣷓らは組み立て対象物に働く接触力等の解析により,治具等で固定されていない対象物が組み立て作業中に運動しにくい状態となる条件を求めた.すなわち,環境中の非把持対象物のロバスト性を考慮して,組み立て作業条件を検討している.本研究ではこの方策に基づいて,複数物体の組み立て作業を単腕マニピュレータで実行することを目的とする.このとき,対象物のロバスト性を考慮することで,仮組状態の複数物体を同時に扱う手法を提案する.作業対象としてパイプジョイントの組み立てを挙げ,簡易な道具を用いることで単腕マニピュレータで複数物体を同時に把持できることを示す.さらに,作業成功率の向上のために RGB-D カメラを用いた物体の位置検出に基づくロボット制御及び動作計画を実装する.
This paper discusses assembly operations using a single manipulator and a parallel gripper to simultaneously
grasp multiple objects and hold the group of temporarily assembled objects. Multiple robots and jigs generally operate
assembly tasks by constraining the target objects mechanically or geometrically to prevent them from moving. It is
necessary to analyze the physical interaction between the objects for such constraints to achieve the tasks with a single
gripper. In this paper, we focus on assembling pipe joints as an example and discuss constraining the motion of the
objects. Our demonstration shows that a simple tool can facilitate holding multiple objects with a single gripper.
【DLゼミ】XFeat: Accelerated Features for Lightweight Image Matchingharmonylab
公開URL:https://arxiv.org/pdf/2404.19174
出典:Guilherme Potje, Felipe Cadar, Andre Araujo, Renato Martins, Erickson R. ascimento: XFeat: Accelerated Features for Lightweight Image Matching, Proceedings of the 2024 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR) (2023)
概要:リソース効率に優れた特徴点マッチングのための軽量なアーキテクチャ「XFeat(Accelerated Features)」を提案します。手法は、局所的な特徴点の検出、抽出、マッチングのための畳み込みニューラルネットワークの基本的な設計を再検討します。特に、リソースが限られたデバイス向けに迅速かつ堅牢なアルゴリズムが必要とされるため、解像度を可能な限り高く保ちながら、ネットワークのチャネル数を制限します。さらに、スパース下でのマッチングを選択できる設計となっており、ナビゲーションやARなどのアプリケーションに適しています。XFeatは、高速かつ同等以上の精度を実現し、一般的なラップトップのCPU上でリアルタイムで動作します。