**Architectures**

**1** 

Sorin Zoican

*Romania* 

**Networking Applications** 

The chapter is organized as follows: a briefly introduction that motivate the necessity of networking embedded systems, a background section which illustrates the basic resources used to accomplish the networking embedded systems (Blackfin microcomputer, Visual DSP Kernel and LWIP suite), two sections that discuss the frameworks for networking application development and performance evaluation, and conclusion. A VoIP system based

Embedded networking applications are now more and more used to send out multimedia content (audio and image) over wired or wireless networks. Control applications and sensor networks are additional areas where adding network means is desirable. More or fewer all systems connected to the Internet communicate using the IP protocol stack (Deborah Estrin, 2001, Gregory Pottie and William Kaiser, 2005). Owing to the supremacy of IP networks, many networked embedded systems are connected to such networks and therefore must be able to communicate using such protocols. However, the IP protocol suite is often apparent to be "heavyweight" in that an achievement of the protocols requires many memory resources and processing power (Adam Dunkels, 2005). The understanding that the IP protocols would require large memory leads to using large microprocessors. If the IP protocol stack is carried out using lesser amount of memory, then smaller microprocessors could be chosen. This would not only make the resulting systems less expensive to manufacture, but would also enable a whole class of smaller embedded systems to communicate using the IP protocol. On the other hand, if the microprocessor is large, and the IP protocol uses less memory then more complex applications may be accomplished.

For the embedded systems, the cost is a limiting element that constrains the resources such as memory and processor capabilities. As a result, many embedded systems do not have more than a few tens kilobytes of memory that make impractical to run the TCP/IP from Linux or Windows. The main difficulty is the memory constraint. The processing power is not quite a difficult problem owing to current technology improvements. The solution to the dilemma of running TCP/IP inside constrained memory limits is developing a very small TCP/IP implementation capable to run on a system with very little memory, called "lightweight" IP (LWIP). The LWIP was carried out for a powerful microcomputer, Blackfin

BF5xx (Analog Devices Inc., ADI) using the EZ-KIT LITE BF5xx evaluation boards.

on AMR codec is illustrated, as a complex networking application example.

**1. Introduction** 

**for Embedded Systems** 

*Politehnica University of Bucharest* 
