X-ray software wanted OEM partnerships provide numerous benefits to manufacturers who are interes...
1 - 10 by 10 results
technology Majesty relies on the innovative and future-proof .net technology from Microsoft. A po...
With the constant advancement in UDI databases worldwide, atrify is committed to supporting the impl...
With the assistance of atrify, not only can UDI-relevant data be transmitted to the FDA's centra...
The perfect complement to the Majesty ERP software for medical technology and the machining industry...
GDSN Solutions for hospitals & GPOs
To share confidential content efficiently and consistently across Europe with hospitals, GPO's a...
The best way to connect to the EUDAMED database should be fast, simple and smooth. But how...
The use of modern technologies opens up new possibilities in the treatment of complex defect situati...
Localisation of Medical Software
Software localization Software localization – developing and adapting software, online help...
NHS Solutions (Scan4Safety-Program)
In March 2019, NHS successfully completed a GDSN pilot project, which is part of the Scan4Safety pro...
1 - 9 by 9 results
Medical APPs, software, applications
Despite the fact that ascribes like adaptability, uniqueness, execution, and so on are now and again attributed to the term 'programming', at last all that the PC 'really does' isn't done by the product, however solely by the equipment. Programming just 'portrays' what ought to be done and in what structure it occurs. For this reason, the machine code of the product is stacked into the primary memory of the PC at the most reduced level utilizing the working framework (for example additionally by its machine orders) and took care of to the number juggling unit bit by bit (see order counter) for execution. This functioning standard applies to a product, regardless of whether it is for example B. is executed by mediators: These are likewise programming whose machine code at the equipment interface is additionally executed as portrayed and the machine orders are just produced inside in the memory. Compilers, full scale processors and some other kind of framework programming are additionally executed by this rule. The machine code should be accessible in a structure/structure that can be deciphered and executed by the equipment through its interface carried out in it. With their substance and design, the orders show what can anyone do, which information regions in the fundamental memory are to be utilized or changed (through tending to data contained in the order) and, if vital, so, all in all the program is to be proceeded. During execution, many layers cooperate and overall lead to changes in the condition of the equipment or at last to the planned outcomes, for example, the yield of a print line, information access or the presentation of field content on the screen. In applications created in higher programming dialects, many thousands or millions of machine orders can frequently be gone through for somewhat basic capacities (like perusing from the data set). The equal execution of a few projects/measures, which is conceivable in current PCs, is basically brought about by the working framework, which starts and deals with the change from one assignment to the next in case of specific occasions. In the orderly association of a large number, which is just conceivable with the utilization of unmistakably characterized interfaces, "programming is perhaps the most intricate artifact that people have made up until this point". The product likewise makes a huge commitment to how effectively the equipment is utilized. Contingent upon the plan of the calculations, diverse framework exhibitions can be accomplished with a similar equipment.