Reference Guide
OID String OID Name Description
.1.3.6.1.4.1.6027.3.16.1.1.5 fpStatsPerPortTable View the forwarding plane statistics
containing the packet buffer usage
per port per stack unit.
.1.3.6.1.4.1.6027.3.16.1.1.6 fpStatsPerCOSTable View the forwarding plane statistics
containing the packet buffer statistics
per COS per port.
Buffer Tuning
Buffer tuning allows you to modify the way your switch allocates buffers from its available memory and helps prevent
packet drops during a temporary burst of traffic.
The S-Series application-specific integrated circuit (ASICs) implement the key functions of queuing, feature lookups,
and forwarding lookups in hardware.
Forwarding processor (FP) ASICs provide Ethernet MAC functions, queueing, and buffering, as well as store feature and
forwarding tables for hardware-based lookup and forwarding decisions. 1G and 10G interfaces use different FPs.
The following table describes the type and number of ASICs per platform.
Table 79. ASICs by Platform
Hardware FP CSF
S50N, S50V 2 0
S25V, S25P, S25N 1 0
As shown in the following example, you can tune buffers at three locations.
1. CSF — Output queues going from the CSF.
2. FP Uplink — Output queues going from the FP to the CSF IDP links.
3. Front-End Link — Output queues going from the FP to the front-end PHY.
All ports support eight queues, four for data traffic and four for control traffic. All eight queues are tunable.
Physical memory is organized into cells of 128 bytes. The cells are organized into two buffer pools — the dedicated
buffer and the dynamic buffer.
• Dedicated buffer — this pool is reserved memory that other interfaces cannot use on the same ASIC or by other
queues on the same interface. This buffer is always allocated, and no dynamic re-carving takes place based on
changes in interface status. Dedicated buffers introduce a trade-off. They provide each interface with a
guaranteed minimum buffer to prevent an overused and congested interface from starving all other interfaces.
However, this minimum guarantee means that the buffer manager does not reallocate the buffer to an adjacent
congested interface, which means that in some cases, memory is under-used.
• Dynamic buffer — this pool is shared memory that is allocated as needed, up to a configured limit. Using
dynamic buffers provides the benefit of statistical buffer sharing. An interface requests dynamic buffers when
its dedicated buffer pool is exhausted. The buffer manager grants the request based on three conditions:
– The number of used and available dynamic buffers.
– The maximum number of cells that an interface can occupy.
– Available packet pointers (2k per interface). Each packet is managed in the buffer using a unique packet
pointer. Thus, each interface can manage up to 2k packets.
You can configure dynamic buffers per port on both 1G and 10G FPs and per queue on CSFs. By default, the FP dynamic
buffer allocation is 10 times oversubscribed. For the 48-port 1G card:
905