Chapter 3.7 - ESCON

3.7 ESCON

The Enterprise Systems Connection (ESCON) is a I/O switch point-to-point technology
that provides bidirectional serial bit transmission over two optical MMF or
SMF fiber cables (one per direction).

In ESCON, the communications protocol is implemented through sequences of
special characters and through formatted frames of characters. Switching functionality
is implemented with devices called “directors,” which are nonblocking and
can dynamically or statically switch traffic.

ESCON defines devices known as signal “repeaters/converters.” These monitor
the usage of the fiber link and collect error statistics. In addition, an “ESCON manager”
manages a multiple ESCON system configuration.

ESCON supports distances as far as 9 km between control units and processors
over fiber. The optical signal is about 10–50 mW at 850 nm (for MMF) or 1300 nm
(for SMF).

The fiber mode (MMF or SMF) is determined according to the distance and bit
rate to be transmitted, using either LEDs or inexpensive laser sources.

With MMF, a bandwidth/length of 500 Mbit/s-km is used. This denotes that 500
Mbit/s is transmitted over 1 km. With ESCON, the maximum distance using MMF
(62.5/125 or 50/125) is limited to 3 km. With SMF, a bandwidth/length of 100
Gbit/s-km is used. This denotes that 100 Gbit/s is transmitted over 1 km.

Information transmitted over ESCON links is encoded from 8-bit binary to 10-
bit EBCDIC codes (8B/10B). This coding process replaces 8-bit with 10-bit codes,
ensuring that the bitstream (signal) on the link has a sufficient density of ones (i.e.,
not many consecutive zeros or ones). Thus, if, for example, the signaling rate on the
fiber is 200 Mbit/s, the effective information data rate is not 20MB/s but lower, calculated
by

Where n is the quantity of data and OH is the overhead (header + trailer).

Figure 3.13 The ESCON frame, with the info field expanded.

Because of 8B/10B coding, several of the unused 10-bit codes are used as special
characters in specific ESCON functions. The 8B/10B coding is transparent to
channel units.

ESCON defines two main formats: character sequences and frames. Sequences
consist of a predefined set of characters that signal either specific states or transitions
to states. Frames have a variable length and transport data.

ESCON frames (Figure 3.13), begin with a “start-of-frame” (SOF) (two characters)
and end with “end-of-frame” (EOF) delimiter (three characters). Following the
SOF is a destination field (three characters), a source field (three characters), and a
link control field (one character). Then, a variable information field (up to 1028
characters), and a link trailer (five characters), which includes the EOF, follow. For
synchronization purposes, the SOF is preceded by a string of “idle” characters that
are unique (they cannot occur within the frame).

The SOF and EOF characters have multiple meanings. The SOF characters denote
either “connect” (establish a connection) or “passive” (connection has been
established). The EOF characters denote either “disconnect” (tear down a connection)
or “passive” (connection has been established). Again, these characters are
unique and they cannot be found in the other field, a benefit of the 8B/10B encoding.

In particular, the information field consists of the “device header” and the “device
information block” (DIB). The “device header” consists of the “information
field identifier” (IFI) (one character), the “device address” (two characters), and the
“device-header flag” (one character). The DIB field may contain data, control, status,
or commands.

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