Single Avaya G700 Media Gateway with an Avaya S8300 Media Server

Single Avaya G700 Media Gateway with an Avaya S8300 Media Server

The maximum capacities for a single G700 Media Gateway with an S8300 Media Server installed are listed in Table 5. VoIP engine capacities for a G700 equipped with an S8300 are listed in Table 6.

Table 5. Capacities of a Single G700 with S8300 Media Server �
Feature	Capacity	Constraining Factor
Media Modules	4	One of the four must be an S8300
RJ45 jacks	2
Avaya MM712 Media Module	3	Available slots
Avaya MM711 Media Module	3	Available slots
Avaya MM710 Media Module	3	Available slots
Avaya MM760 Media Module	3	Available slots
Traditional stations	24	Number of traditional ports physically installed
IP stations	100	Defined system maximum and as limited by LAN
IP and traditional stations	100	Defined system maximum and as limited by LAN
Trunks	24 Analog	Three Avaya MM711 installed
T1/E1 facilities		Three Avaya MM710 Media Modules installed
23 voice and 1 control channel per Media Module	69 T1
31 voice and 1 control channel per Media Module	93 E1
30 voice and 2 control channels per Media Module	90 E1
IP trunks	100	System maximum
Touch Tone Receivers (TTR) per Media Gateway	8	Supplied by the Spitfire circuit on the G700 main board
VoIP engines per G700 (minimum)	1	Included on the main board
VoIP Engines per G700	4	One engine on main board and three additional Avaya MM760 Media Modules
DSP ports per VoIP Engine	32
Calls requiring a TDM bus connection (traditional phone to traditional phone, or traditional phone to analog, or T1/E1)	24	Number of traditional phones that can be installed in a single G700
Announcement files	255
Minutes of recording	30
Simultaneous playback channels	15
Record channels	1

Note: E1=32 is 1 control, 1 signal, and 30 voice. T1=24 in robbed-bit signaling mode. T1=23 if common channel or ISDN.

Table 6. VoIP Engine Capacities for Single Media Module with S8300 Media Server
Feature	Number of Internal VoIP Engines 1 2 3 4				Constraining Factor
Simultaneous IP phone to traditional station or trunk conversations including call progress tones	32	64	96	128	VoIP engine design (Cannot be achieved simultaneously with all types of calls requiring a VoIP port)
Simultaneous IP phone to IP phone conversations with shuffling	225	225	225	225	Ability of IP phones to shuffle, performance of the LAN, and system maximum of 450 stations
Simultaneous IP Phone to IP Phone G711 conversations	64	128	192	256	Performance of the LAN and VoIP engine design
Simultaneous IP phone to IP phone 3-way conference conversations	10	21	32	42	VoIP engine design (Cannot be achieved simultaneously with all types of calls requiring a VoIP port)
Simultaneous transcoding IP phone to IP phone (from G711, G729, and G723) conversations	32	64	96	128	VoIp engine design Cannot be achieved simultaneously with all types of calls requiring a VoIP port