Overview
Gladius Connected Buildings, goes beyond automation of air-conditioning and lighting systems in isolation. Capable of connecting geographically dispersed buildings, it works on multiple aspects including management of multiple building systems, access control, and video surveillance; while integrating IT systems. As a result, you can achieve energy efficiency, better asset life, cost optimization, increased occupant comfort and centralized management.
Most building management systems, capable of operating in a lights on mode, but inflexible when it comes to adding new solutions. Gladius Connected Buildings, on the other hand brings together mobility, cloud and the Internet of Things (IoT) to make today’s facility management capable of being dynamic and responsive. The platform is centralized empowering the senior management team to get access to real-time data from a central location.
While the current building systems are capable of operating in a lights on mode, they are inflexible and one cannot add new solutions. With the use of next-generation solutions that leverage mobility, cloud and the Internet of Things (IoT); today’s facility management have an option to move from a reactive mode to a more dynamic approach that is predictive and responsive.
Platform independent with support for Microsoft Azure and AWS.
In addition to Gladius, T2M IoT services is also partnered with Siemens MindSphere IoT Platform.
T2M is customizing its Gladius Platform to the specific requirements of the Smart Lighting Industry.
Provider
T2M GmbH is the leading Global Technology Company supplying state of the art complex semiconductor connectivity IPs and KGDs, enabling the creation of complex connected devices for Mobile, IoT and Wearable markets.
T2M's unique SoC White Box IPs are the design database of mass production RF connectivity chips supporting standards including Wifi, BT, BLE, Zigbee, NFC, LTE, GSM, GNS. They are available in source code as well as KGD for SIP / modules.
With offices in USA, Europe, China, Taiwan, South Korea, Japan, Singapore and India, T2M’s highly experienced team provides local support, accelerating product development and Time 2 Market.
Learn more about System Controller IP core
ARM has introduced many processors. Each set or groups of processors are having different core and different Features. A new entrant or Designer to the ARM can make use of this paper for easy understanding and choose a processor that is well suited for the requirements. This paper gives brief comparison of the Architectures.
This paper describes the architectural design of RISC based asynchronous microprocessor as an alternative to clocked design.
An IP based development methodology for building system-on-a-chip solution is described. The methodology is illustrated through a memory centric SoC architecture template intended for streaming data applications such as video and audio.
This paper highlights a typical design approach that can be adopted for an embedded PC (X86 based) board memory subsystem using a VIA VX700 system controller DDR2 interface. Boards with this chipset can feature either an Intel Pentium processor or VIA processor on front side bus (FSB).
Small changes in the initial design of a complex embedded system can often have an unpredictable outcome and have a significant impact on the final system performance
Reconfiguring Design -> Reconfiguring for broadband access
