DS3181/DS3182/DS3183/DS3184
202
11 OVERALL REGISTER MAP
The register addresses of the global, test and all four ports are concatenated to cover the address range of 000 to
7FF. The address map requires 11 bits of address, ADR[10:0]. The upper address bit A[10] is decoded for the
DS3184 and DS3183 devices. The upper address bit A[10] it is not used by the DS3182 and DS3181 devices and
must be tied low at the pin.
The register banks that are not marked with an “X” are not writeable and read back all zeroes. Bits that are
underlined are read-only; all other bits are read-write.
After Global Reset, all Registers will be reset to their default values.
When writing to registers with unused bits marked with “—“, always write a zero to these unused bits and
ignore the value read back from these bits.
Configuration registers can be written to and read from during a data path reset (
DRST low, and RST high).
However, all changes to these registers will be ignored during the data path reset. As a result, all initiating action
requiring a “0 to 1” transition must be re-initiated after the data path reset is released.
All counters saturate at their maximum count. A counter register is updated by asserting (low to high transition) the
performance monitoring update signal (RPMU). During the counter register update process, the performance
monitoring status signal (RPMS) will be deasserted. The counter register update process consists of loading the
counter register with the current count, resetting the counter, forcing the zero count status indication low for one
clock period, and then asserting RPMS. No events shall be missed during an update procedure.
A latched bit is set when the associated event occurs, and remains set until it is cleared. Once cleared, a latched
bit will not be set again until the associated event reoccurs (goes away and comes back). A latched on change bit
is a latched bit that is set when the event occurs, and when it goes away. A latched status bit can be cleared using
clear on read or clear on write techniques, selectable by the
GL.CR1.LSBCRE bit. When clear on read is selected,
the latched bits in a latched status register will be cleared after the register is read from. If the device is configured
for 16-bit mode, all 16 latched status bits will be cleared. If the device is configured for 8-bit mode, only the 8 bits
being accessed will be cleared. When clear on write is selected, the latched bits in a latched status register will be
cleared when a logic 1 is written to that bit position. For example, writing a FFFFh to a 16-bit latched status register
will clear any latched status bit, whereas writing a 0001h will only clear latched bit 0 of the latched status register.
Reserved bits and registers are implemented in a different mode. Reserved configuration bits and registers can be
written and read, however they will not effect the operation of the current mode. Reserved status bits will be zero.
Reserved latched status bits cannot be set, however, they may remain set or get set during a mode change.
Reserved interrupt enable bits can be written and read, and can cause an interrupt if the associated latched status
bit is set. Reserved counter registers and the associated counter will retain the values held before a mode change,
however, the associated counter cannot be incremented. A performance monitor update will operate normally. If
the data path reset is set during or after a mode change, the latched status bits and counter registers (with the
associated counters) will be automatically cleared. If the data path reset is not used, then the latched status bits
must be cleared via the register interface in the normal manner. And, the counter registers must be cleared by
performing two performance monitor updates. The first to clear the associated counter, and load the current count
into the counter register, and the second to clear the counter register.