Dicota Luggage from Hypertec

MultiTwin

front loader

The space saving miracle for notebook, printer, and documents.

A surprisingly compact case that contains enough space for notebooks up to 15‰, printer, and mobile acces- sories.

The effective protective cushioning surrounds the notebook and printer and guarantees maximum safety from bumps and knocks.

The well-engineered compartments - including the new extractable CD compartment in the interior - make for an ideal segmentation of accessories. Additional storage space for documents and mobile accessories is available in the newly designed front pocket with holders for pens, mobile phone, and business cards. Even more documents can be placed in the zippered document compartment on the rear side and power supply units can be stored in the separate meshed cable bag.

The MultiTwin makes it easy to transport a whole working office: the soft and specially designed carrying handle provides carrying comfort and the padded shoulder strap plus trolley fastening strap allow you to keep your hands free.

The MultiTwin is made of robust polyester.

Specification:

 

Colour:

Black

Dimensions:

420mm x 350mm x 180mm OR 16.5‰ x 13.8‰ x 7.1‰

Weight:

1.6kg

Material:

Polyester/Koskin

For Notebooks up to:

15.4‰

Part Codes:

 

N14618PHY

MultiTwin

Available from:

Hypertec Ltd

2 Swangate, Charnham Park, Hungerford, Berks, RG17 0YX

t: 0870 243 5603

f: 0870 243 5604

w: www.hypertec.co.uk

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Hypertec N14618PHY dimensions Front loader, Space saving miracle for notebook, printer, and documents, Specification

N14618PHY specifications

The Hypertec N14618PHY is a cutting-edge network interface card (NIC) designed to meet the demands of modern data centers and enterprise networks. This high-performance device is engineered to provide seamless connectivity and unparalleled data transfer speeds, facilitating efficient communication between servers, storage systems, and network devices.

One of the primary features of the Hypertec N14618PHY is its advanced 10 Gigabit Ethernet (10GbE) capability. This allows for rapid data movement, significantly enhancing bandwidth for heavy workloads and virtualized environments. The NIC utilizes SFP+ ports for flexibility, supporting both copper and fiber connections. This versatility makes it suitable for a variety of networking scenarios, from short-range connections to long-distance setups.

The card is built on a power-efficient architecture that minimizes energy consumption while maximizing performance. By implementing technologies such as Adaptive Link Rate and low-power modes, the Hypertec N14618PHY not only optimizes the network's operational costs but also contributes to sustainability goals by reducing the carbon footprint of data center operations.

The Hypertec N14618PHY supports various network protocols, including TCP/IP offloading and iSCSI, enabling specialized functions such as data packet processing to occur directly on the NIC, thereby freeing up CPU resources for other critical tasks. This offloading capability leads to improved overall efficiency and performance, which is essential for applications that require high throughput and low latency.

Another significant characteristic of the N14618PHY is its compatibility with industry-standard operating systems and hypervisors, making it easy to integrate into existing environments. The device is also equipped with robust drivers that ensure stability and performance across various platforms.

In addition to its performance and compatibility, the Hypertec N14618PHY is designed with security in mind. It features built-in hardware support for network security protocols, protecting sensitive data during transmission and ensuring compliance with industry standards.

In summary, the Hypertec N14618PHY represents a next-generation NIC that combines speed, efficiency, and security, making it an ideal solution for today’s enterprise networking challenges. Its advanced technologies and features empower organizations to build robust, high-performance network infrastructures that can adapt to growing data demands and complex virtualized environments.