State of the Art in Hardware/Software Co-Design
State of the art denotes the current degree of technological as well as other innovations. In this context, therefore, the term art depicts the uncertain and dynamic nature of changes as well as the likelihood or the need for the run to perfect these technological advancements. Furthermore, state of the art incorporates the latest stages involved in the development of a particular product and includes the newest technical features and concepts. While the current level of technology determines the value of electronic gadgets, individuals tend to procure expensive state of the art gadgets that would perform similar functions to those of XXXXXXX machines.
XXX XXXXXXXX/XXXXXXXX co-XXXXXX XX significant XXX examining XXX synchronized XXXXXX of both XXXXXXXX XXX XXXXXXXX components present in XXX XXXXXXXXXXXX XXXXXXXXXX systems. XXX co-design XXXXXXX to XXXXXXX XXX interaction XX XXXXXXXX XX well as XXXXXXXX components XXXXXX to XXXXXXX XXX improve the XXXXXXX constraints in XXXXXX. XXXXX constraints XXXXXXXXX power, XXXX, and the performance XX the XXXXXXXX product (XXX et XX., 2018). Moreover, it focuses XX XXXXXXXX XXX time taken in XXXXXXXXX the products.
XXX recent XXXXXXXXXXX in hardware XXX software co-XXXXXX XXXX XXXXXXXX XXX automation of services. XXX instance, in XXX XXXXXXXX XXXXX, business XXXXXXX embraced XXXXXX XXXXXXXXXXXX XXX XXXXXXXXXX technologies to XXXXX the XXXXXXXXXXX of XXX XXXXXXXXXX as XXXX XX XX XXXXX XXXXXXXX XX XXXXXXXXX (Pan XX XX., XXXX). In XXXXXXXXXXXX XXXXXXX, XXX XXXXXXXXXXX XX XXXXXXXX XXXXXXXX hardware/software has enabled individuals to use automated XXXXXXXX to handle diverse business XXXXXXXXXX XXXXXXXXXXXXXX. XXXX situation XXX increased XXX efficiency of the XXXXXXXX XXXXXXX XX XXXXXXX.
Notably, XXXXXX XXXXXXXXXXXXX breakthroughs XXXX enabled XXX XXXXXXXXXXX of near XXXXXXXXXXX processing software XXX XXXXXXXX accelerators. XXXXX XXXXXXXXXXXX are crucial for XXX XXXXXXX XXXX XXXXXXX XXXXXX since executing XXXX XXXXXXXX in computer memory XXXXXXXX the active transportation XX required data only through XXX memory XXXXXXXXX. XXXX XXXXXXXXX leaves the computer’s XXX free XX XXXXX out other vital XXXXXXXXX and XXXXXX XXXXX pollution. Moreover, XXX accelerators XXXX to XXXX XXX pressure XX XXX XXXXXX bus to permit efficient XXXX transfer (Sarhadi, & Yousefpour, 2015). XXX advancement in XXX recent technology XXX therefore XXXXXXXX efficiency in data XXXXXXXXXX XXXXXXX increasing the speed of XXX CPU XX issue XXX XXXXXXX XXXXXXXX as well XX XX allow XXXXX-XXXXXXX.
XXX robotic automation XXXXXXX XX a significant technological breakthrough XXXX XXX promoted the automation of methods XX XXXXXXXX efficiency XXXX XXXXXXXX XXXXXXX. Hardware and software technological XXXXXXXXXXXX XXXX XXXX assisted in XXXXXXXXX the performance XX XXXXXXXXX machines in XXXXXXXXXXXX XXXXXXX (Anthes et XX., 2016). The integration of hardware accelerators XXX XXXXXX-XXXXXXXXXX computer XXXXXXXXXX XXXXXXXX XXX establishment of high-XXXXX networks XXXXXXXX XX XXXXX XXXXXXXXX services to clients.
In a nutshell, the level of technology changes as XXXX progresses. XXXX technology enhances XXX delivery XX XXXXXXXX, especially in business environments. XXX hardware and software co-XXXXXX XX crucial XXX the XXXXXXXXXXXXX of XXXXXXXX XXXXXXXX, and software XXXXXXXXXX work XXXXXXXX. The introduction of XXXXXXXX XXXXXXXXXXXX XXX enabled XXX XXX XX XXXXXXX XXXXXXXX XXXXX, thereby promoting the efficiency of services. XXXXXXXX, XXXXX accelerators XXX XXXXX for easing XXX XXXXXXXX of the XXXXXX bus and also help to inhibit XXXXX pollution. The development XX robotic technology XXXXXXX XXXXXXXXXXX innovations in hardware and XXXXXXXX XXXXXXXX XXXXXXXXXX has XXXXXXX XXXXXXXXXX XX services, and this XXXXXXXXX increases XXXXXXXXXX at XXX XXXXXXXXX.
XXXXXXXXXX
Anthes, X., XXXXXX-XXXXXXXXX, X. X., XXXXXXXXX, M., &XXX; Kranzlmüller, X. (XXXX, March). XXXXX XX XXX XXX of XXXXXXX reality technology. In 2016 XXXX Aerospace Conference (XX. 1-XX). XXXX.
Pan, W., Li, Z., XXXXX, X., & XXXX, X. (2018). The New XXXXXXXX XXXXXXXXXXX Trend and XXX Challenges in Data XXXXXXXXXX XXX Analysis. XXXX Science and XXXXXXXXXXX, X(3), XXX-276.
Sarhadi, P., & Yousefpour, S. (XXXX). State of the art: hardware in XXX XXXX XXXXXXXX and simulation XXXX XXX applications in design, development, XXX XXXXXXXXXXXXXX XX system XXX XXXXXXX XXXXXXXX. International Journal XX Dynamics XXX Control, 3(X), XXX-479.
">