9 | | ||Open Source|| Source is available for public scrutiny. |
10 | | ||High Performance|| Thousands of calls can be processed per second on a typical Intel P4/2.4GHz desktop machine. More can be expected with proper server hardware and more or higher processor specs.|| |
11 | | ||Small Footprint, Very Scalable|| Scale down to low profile/embedded/small footprint SIP devices, or scale up to servers with mutlple processors using the same SIP stack source tree.|| |
12 | | ||Portable|| 32bit, 64bit, big/little endian, realtime, any operating system, or even no operating system.|| |
13 | | ||Extensive Documentation|| There can never be enough documentation, so we try to provide readers with hundreds of pages worth of documentation (some are generated from the source, some are handwritten documents).|| |
| 9 | ||'''Open Source'''|| Source is available for public scrutiny. |
| 10 | ||'''High Performance'''|| Thousands of calls can be processed per second on a typical Intel P4/2.4GHz desktop machine. More can be expected with proper server hardware and more or higher processor specs.|| |
| 11 | ||'''Small Footprint, Very Scalable'''|| Scale down to low profile/embedded/small footprint SIP devices, or scale up to servers with mutlple processors using the same SIP stack source tree.|| |
| 12 | ||'''Portable'''|| 32bit, 64bit, big/little endian, realtime, any operating system, or even no operating system.|| |
| 13 | ||'''Extensive Documentation'''|| There can never be enough documentation, so we try to provide readers with hundreds of pages worth of documentation (some are generated from the source, some are handwritten documents).|| |