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2 Net DIM - Generic Network Dynamic Interrupt Moderation
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5 :Author: Tal Gilboa <talgi@mellanox.com>
7 .. contents:: :depth: 2
12 This document assumes the reader has basic knowledge in network drivers
13 and in general interrupt moderation.
19 Dynamic Interrupt Moderation (DIM) (in networking) refers to changing the
20 interrupt moderation configuration of a channel in order to optimize packet
21 processing. The mechanism includes an algorithm which decides if and how to
22 change moderation parameters for a channel, usually by performing an analysis on
23 runtime data sampled from the system. Net DIM is such a mechanism. In each
24 iteration of the algorithm, it analyses a given sample of the data, compares it
25 to the previous sample and if required, it can decide to change some of the
26 interrupt moderation configuration fields. The data sample is composed of data
27 bandwidth, the number of packets and the number of events. The time between
28 samples is also measured. Net DIM compares the current and the previous data and
29 returns an adjusted interrupt moderation configuration object. In some cases,
30 the algorithm might decide not to change anything. The configuration fields are
31 the minimum duration (microseconds) allowed between events and the maximum
32 number of wanted packets per event. The Net DIM algorithm ascribes importance to
33 increase bandwidth over reducing interrupt rate.
39 Each iteration of the Net DIM algorithm follows these steps:
41 #. Calculates new data sample.
42 #. Compares it to previous sample.
43 #. Makes a decision - suggests interrupt moderation configuration fields.
44 #. Applies a schedule work function, which applies suggested configuration.
46 The first two steps are straightforward, both the new and the previous data are
47 supplied by the driver registered to Net DIM. The previous data is the new data
48 supplied to the previous iteration. The comparison step checks the difference
49 between the new and previous data and decides on the result of the last step.
50 A step would result as "better" if bandwidth increases and as "worse" if
51 bandwidth reduces. If there is no change in bandwidth, the packet rate is
52 compared in a similar fashion - increase == "better" and decrease == "worse".
53 In case there is no change in the packet rate as well, the interrupt rate is
54 compared. Here the algorithm tries to optimize for lower interrupt rate so an
55 increase in the interrupt rate is considered "worse" and a decrease is
56 considered "better". Step #2 has an optimization for avoiding false results: it
57 only considers a difference between samples as valid if it is greater than a
58 certain percentage. Also, since Net DIM does not measure anything by itself, it
59 assumes the data provided by the driver is valid.
61 Step #3 decides on the suggested configuration based on the result from step #2
62 and the internal state of the algorithm. The states reflect the "direction" of
63 the algorithm: is it going left (reducing moderation), right (increasing
64 moderation) or standing still. Another optimization is that if a decision
65 to stay still is made multiple times, the interval between iterations of the
66 algorithm would increase in order to reduce calculation overhead. Also, after
67 "parking" on one of the most left or most right decisions, the algorithm may
68 decide to verify this decision by taking a step in the other direction. This is
69 done in order to avoid getting stuck in a "deep sleep" scenario. Once a
70 decision is made, an interrupt moderation configuration is selected from
71 the predefined profiles.
73 The last step is to notify the registered driver that it should apply the
74 suggested configuration. This is done by scheduling a work function, defined by
75 the Net DIM API and provided by the registered driver.
77 As you can see, Net DIM itself does not actively interact with the system. It
78 would have trouble making the correct decisions if the wrong data is supplied to
79 it and it would be useless if the work function would not apply the suggested
80 configuration. This does, however, allow the registered driver some room for
81 manoeuvre as it may provide partial data or ignore the algorithm suggestion
82 under some conditions.
85 Registering a Network Device to DIM
86 ===================================
88 Net DIM API exposes the main function net_dim().
89 This function is the entry point to the Net
90 DIM algorithm and has to be called every time the driver would like to check if
91 it should change interrupt moderation parameters. The driver should provide two
92 data structures: :c:type:`struct dim <dim>` and
93 :c:type:`struct dim_sample <dim_sample>`. :c:type:`struct dim <dim>`
94 describes the state of DIM for a specific object (RX queue, TX queue,
95 other queues, etc.). This includes the current selected profile, previous data
96 samples, the callback function provided by the driver and more.
97 :c:type:`struct dim_sample <dim_sample>` describes a data sample,
98 which will be compared to the data sample stored in :c:type:`struct dim <dim>`
99 in order to decide on the algorithm's next
100 step. The sample should include bytes, packets and interrupts, measured by
103 In order to use Net DIM from a networking driver, the driver needs to call the
104 main net_dim() function. The recommended method is to call net_dim() on each
105 interrupt. Since Net DIM has a built-in moderation and it might decide to skip
106 iterations under certain conditions, there is no need to moderate the net_dim()
107 calls as well. As mentioned above, the driver needs to provide an object of type
108 :c:type:`struct dim <dim>` to the net_dim() function call. It is advised for
109 each entity using Net DIM to hold a :c:type:`struct dim <dim>` as part of its
110 data structure and use it as the main Net DIM API object.
111 The :c:type:`struct dim_sample <dim_sample>` should hold the latest
112 bytes, packets and interrupts count. No need to perform any calculations, just
113 include the raw data.
115 The net_dim() call itself does not return anything. Instead Net DIM relies on
116 the driver to provide a callback function, which is called when the algorithm
117 decides to make a change in the interrupt moderation parameters. This callback
118 will be scheduled and run in a separate thread in order not to add overhead to
119 the data flow. After the work is done, Net DIM algorithm needs to be set to
120 the proper state in order to move to the next iteration.
126 The following code demonstrates how to register a driver to Net DIM. The actual
127 usage is not complete but it should make the outline of the usage clear.
131 #include <linux/dim.h>
133 /* Callback for net DIM to schedule on a decision to change moderation */
134 void my_driver_do_dim_work(struct work_struct *work)
136 /* Get struct dim from struct work_struct */
137 struct dim *dim = container_of(work, struct dim,
139 /* Do interrupt moderation related stuff */
142 /* Signal net DIM work is done and it should move to next iteration */
143 dim->state = DIM_START_MEASURE;
146 /* My driver's interrupt handler */
147 int my_driver_handle_interrupt(struct my_driver_entity *my_entity, ...)
150 /* A struct to hold current measured data */
151 struct dim_sample dim_sample;
153 /* Initiate data sample struct with current data */
154 dim_update_sample(my_entity->events,
159 net_dim(&my_entity->dim, dim_sample);
163 /* My entity's initialization function (my_entity was already allocated) */
164 int my_driver_init_my_entity(struct my_driver_entity *my_entity, ...)
167 /* Initiate struct work_struct with my driver's callback function */
168 INIT_WORK(&my_entity->dim.work, my_driver_do_dim_work);
172 Dynamic Interrupt Moderation (DIM) library API
173 ==============================================
175 .. kernel-doc:: include/linux/dim.h