PTP 820S License Keys:
Carrier Ethernet Transport
N000082L030A |
PTP 820 Act.Key - Agg-Lvl-1-CET-Node mode |
Agg-Lvl-1-CET-Node – Up to 64 services - Enables Carrier Ethernet Transport (CET) and a number of Ethernet services (EVCs), depending on the type of CET Node activation key: -Aggregation Level 1 CET Node? Up to 64 EVCs. A CET Node activation key also enables the following: - A GbE traffic port in addition to the port provided by the default activation key, for a total of 2 GbE traffic ports. - Network resiliency (MSTP/RSTP) for all services. - Full QoS for all services including basic queue buffer management (fixed queues buffer size limit, tail-drop only) and eight queues per port, no H-QoS. |
N000082L037A |
PTP 820 Act.Key - Edge-CET-Node mode |
Edge-CET Node – Up to 8 services - Enables Carrier Ethernet Transport (CET) and a number of Ethernet services (EVCs), depending on the type of CET Node activation key: -Edge CET Node? Up to 8 EVCs. A CET Node activation key also enables the following: - A GbE traffic port in addition to the port provided by the default activation key, for a total of 2 GbE traffic ports. - Network resiliency (MSTP/RSTP) for all services. - Full QoS for all services including basic queue buffer management (fixed queues buffer size limit, tail-drop only) and eight queues per port, no H-QoS. |
N000082L055A |
PTP 820 Act.Key - Upg Edge/Agg-Lvl-1 Node |
Frame Cut Through
N000082L041A |
PTP 820 Act.Key - Frame Cut-Through |
Frame Cut-Through is a unique and innovative feature that ensures low latency for delay-sensitive services, such as CES, VoIP, and control protocols. With Frame Cut-Through, high-priority frames are pushed ahead of lower priority frames, even if transmission of the lower priority frames has already begun. |
This mechanism provides the ability to modify priority bits in frames based on the calculated CoS and Color. |
The color represents the internal drop priority in a switch and determines the sequence in which packets in one queue are dropped when traffic congestion occurs. The Institute of Electrical and Electronics Engineers (IEEE) defines three colors: green, yellow, and red. |
The drop priority depends on parameter settings. For example, green packets can use a maximum of 50% buffer and red packets can use a maximum of 100% buffer. Green packets have a higher drop priority than red packets. That is, red packets may not have a higher drop priority than green packets. |
Packet Buffer
N000082L038A |
PTP 820 Act.Key - Enh. packet buffer Mng |
Enables configurable (non-default) queue buffer size limit for Green and Yellow frames. It also enables WRED. The default queue buffer size limit is 1Mbits for Green frames and 0.5 Mbits for Yellow frames. |
This mechanism provides the ability to modify priority bits in frames based on the calculated CoS and Color. The color represents the internal drop priority in a switch and determines the sequence in which packets in one queue are dropped when traffic congestion occurs. The Institute of Electrical and Electronics Engineers (IEEE) defines three colors: green, yellow, and red. The drop priority depends on parameter settings. For example, green packets can use a maximum of 50% buffer and red packets can use a maximum of 100% buffer. Green packets have a higher drop priority than red packets. That is, red packets may not have a higher drop priority than green packets. |
Header De-duplication
N000082L043A |
PTP 820 Act.Key - Header De-Dup, per Tx Chan |
Enables the use of Header De-Duplication, which can be configured to operate at L2 through L4. Header De-Duplication enables operators to significantly improve Ethernet throughout over the radio link without affecting user traffic. Header De-Duplication can be configured to operate on various layers of the protocol stack, saving bandwidth by reducing unnecessary header overhead. Header Deduplication is also sometimes known as header compression. |
ACM - Adaptive Coding Modulation
N000082L029A |
PTP 820 Act.Key - ACM |
Enables the use of Adaptive Coding and Modulation (ACM) scripts. A separate activation key is required per core. TX and RX rates are dynamic. An ACM-enabled radio system automatically chooses which profile to use according to the channel fading conditions |
AES - Advanced Encryption Services
N000082K027B |
PTP 820 Act.Key - AES Key 256 bit - Per Tx Chan |
If no AES activation key is configured for the unit and the user attempts to enable AES on a radio carrier, in addition to an Activation Key Violation alarm the feature will remain inactive and no encryption will be performed. |
After entering an AES activation key, the user must reset the unit before AES can be activated. Unit reset is only necessary for the first AES activation key. If AES activation keys are acquired later for additional radio carriers, unit reset is not necessary |
IEEE-1588 Transparent Clock
N000082L047A |
PTP 820 Act.Key - IEEE-1588 TC |
Enables IEEE-1588 Transparent Clock support. To ensure minimal packet delay variation (PDV), PTP 820S’s synchronization solution includes 1588v2-compliant Transparent Clock. Transparent Clock provides the means to measure and adjust for delay variation, thereby ensuring low PDV |
AFR - Advanced Frequency Reuse
N000082K087A |
PTP 820 Act.Key - AFR, Per Tx Chan |
Enables the use of Advanced Frequency Reuse (AFR). For an AFR 1+0- configuration, two activation keys are required for the hub site PTP 820C (one per carrier) and one activation key is required for each tail site. |
N000082L042A |
PTP 820 Act.Key - GE port, per additional port |
Enables the use of an Ethernet port in GbE mode (10/100/1000baseT or 1000baseX) for traffic. An activation key is required for each traffic port that is used on the device. Any of these activation keys can be installed multiple times with dynamic allocation inside the unit. |
N000082K165A |
PTP 820 Act.Key - LLF Link Loss Forwarding |
Enables the use of Link Loss Forwarding (LLF) with Automatic State Propagation (ASP). Without the activation key, only one LLF ID can be configured. This means that only one ASP pair can be configured per radio interface or radio group. Automatic state propagation enables the propagation of radio failures back to the Ethernet port. You can also configure Automatic State Propagation to close the Ethernet port based on a radio failure at the remote carrier. |
N000082K166A |
PTP 820 Act.Key - LACP Link Aggregation Control Protocol |
Enables Link Aggregation Control Protocol (LACP). Support LACP, which expands the capabilities of static LAG and provides interoperability with third-party equipment that uses LACP. LACP improves the communication between LAG members. |
N000082L051A |
PTP 820 Act.Key - Secure Management |
Enables secure management protocols (SSH, HTTPS, SFTP, SNMPv3, and RADIUS) |
Ethernet & Ports
N000082L052A |
PTP 820 Act.Key - Sync. Unit |
Enables the G.8262 synchronization unit. This activation key is required in order to provide end-to-end synchronization distribution on the physical layer. This activation key is also required to use Synchronous Ethernet (SyncE). |
Capacity
N000082L123A |
PTP 820 Act.Key - Capacity 100M |
N000082L124A |
PTP 820 Act.Key - Capacity 200M |
N000082L133A |
PTP 820 Act.Key - Capacity 300M |
N000082L125A |
PTP 820 Act.Key - Capacity 500M |
N000082L126A |
PTP 820 Act.Key - Capacity 650M |
N000082L035A |
PTP 820S Act.Key - Capacity upgrade from X to 500M, per Tx Chan |
N000082L036A |
PTP 820S Act.Key - Capacity upgrade from X to 650M, per Tx Chan |
N000082L032A |
PTP 820S Act.Key - Capacity 100M with ACM Enabled, per Tx Chan |
N000082L127A |
PTP 820S Act.Key - Capacity 200M with ACM Enabled, per Tx Chan |
N000082L129A |
PTP 820S Act.Key - Capacity 300M with ACM Enabled, per Tx Chan |
N000082L033A |
PTP 820S Act.Key - Capacity 500M with ACM Enabled, per Tx Chan |
N000082L034A |
PTP 820S Act.Key - Capacity 650M with ACM Enabled, per Tx Chan |
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