Bus Interface Unit (BIU) Registers
Core Configuration
4
-29
12
BME
0
Bus Mastership Enable
Enables/disables interface to a local DRAM for the DSP. When BME is cleared, the
RAS and CAS pins are tri-stated when mastership is lost. Therefore, you must connect
an external pull-up resistor to these pins. In this case (BME = 0), the DSP DRAM
controller assumes a page fault each time the mastership is lost. A DRAM refresh
requires a bus mastership. If the BME bit is set, the RAS and CAS pins are always
driven from the DSP. Therefore, DRAM refresh can be performed, even if the DSP is
not the bus master.
11
BPLE
0
Bus Page Logic Enable
Enables/disables the in-page identifying logic. When BPLE is set, it enables the page
logic (the page size is defined by BPS[1–0] bits). Each in-page identification causes the
DRAM controller to drive only the column address (and the associated CAS signal).
When BPLE is cleared, the page logic is disabled, and the DRAM controller always
accesses the external DRAM in out-of-page accesses (for example, row address with
RAS assertion and then column address with CAS assertion). This mode is useful for
low power dissipation. Only one in-page identifying logic exists. Therefore, during
switches from one DRAM external bank to another DRAM bank (the DRAM external
banks are defined by the access type bits in the AARs, different external banks are
accessed through different AA/RAS pins), a page fault occurs.
10
0
Reserved. Write to zero for future compatibility.
9–8
BPS[1–0]
0
Bus DRAM Page Size
Defines the size of the external DRAM page and thus the number of the column
address bits. The internal page mechanism works according to these bits only if the
page logic is enabled (by the BPLE bit). The four combinations of BPS[1–0] enable the
use of many DRAM sizes (1 M bit, 4 M bit, 16 M bit, and 64 M bit). The encoding of
BPS[1–0] is:
00 = 9-bit column width, 512 words
01 = 10-bit column width, 1 K words
10 = 11-bit column width, 2 K words
11 = 12-bit column width, 4 K words
When the row address is driven, all 24 bits of the external address bus are driven [for
example, if BPS[1–0] = 01, when driving the row address, the 14 MSBs of the internal
address (XAB, YAB, PAB, or DAB) are driven on address lines A[0–13], and the
address lines A[14–23] are driven with the 10 MSBs of the internal address. This
method enables the use of different DRAMs with the same page size.
7–4
0
Reserved. Write to zero for future compatibility.
3–2
BRW[1–0]
0
Bus Row Out-of-page Wait States
Defines the number of wait states that should be inserted into each DRAM out-of-page
access. The encoding of BRW[1–0] is:
00 = 4 wait states for each out-of-page access
01 = 8 wait states for each out-of-page access
10 = 11 wait states for each out-of-page access
11 = 15 wait states for each out-of-page access
1–0
BCW[1–0]
0
Bus Column In-Page Wait State
Defines the number of wait states to insert for each DRAM in-page access. The
encoding of BCW[1–0] is:
00 = 1 wait state for each in-page access
01 = 2 wait states for each in-page access
10 = 3 wait states for each in-page access
11 = 4 wait states for each in-page access
Table 4-9. DRAM Control Register (DCR) Bit Definitions (Continued)
Bit
Number
Bit Name
Reset
Value
Description
Summary of Contents for DSP56303
Page 1: ...DSP56303 User s Manual 24 Bit Digital Signal Processor DSP56303UM AD Revision 1 January 2001 ...
Page 52: ...JTAG OnCE Interface 2 22 DSP56303 User s Manual ...
Page 114: ...General Purpose Input Output GPIO 5 10 DSP56303 User s Manual ...
Page 212: ...GPIO Signals and Registers 8 26 DSP56303 User s Manual ...
Page 268: ...Interrupt Equates A 22 DSP56303 User s Manual ...
Page 306: ...Programming Sheets B 38 DSP56303 User s Manual ...
Page 320: ...Index 14 DSP56303 User s Manual ...