XC3S100E Datasheet, PDF(23/193 Page) Xilinx, Inc – DC and Switching Characteristics

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XC3S100E Datasheet, PDF (23/193 Pages) Xilinx, Inc – DC and Switching Characteristics

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Functional Description

The SLICEM pair supports two additional functions:

â¢ Two 16x1 distributed RAM blocks, RAM16

â¢ Two 16-bit shift registers, SRL16

Each of these elements is described in more detail in the fol-

lowing sections.

Logic Cells

The combination of a LUT and a storage element is known

as a "Logic Cell". The additional features in a slice, such as

the wide multiplexers, carry logic, and arithmetic gates, add

to the capacity of a slice, implementing logic that would oth-

erwise require additional LUTs. Benchmarks have shown

that the overall slice is equivalent to 2.25 simple logic cells.

This calculation provides the equivalent logic cell count

shown in Table 6.

Slice Details

Figure 16 is a detailed diagram of the SLICEM. It represents

a superset of the elements and connections to be found in

all slices. The dashed and gray lines (blue when viewed in

color) indicate the resources found only in the SLICEM and

not in the SLICEL.

Each slice has two halves, which are differentiated as top

and bottom to keep them distinct from the upper and lower

slices in a CLB. The control inputs for the clock (CLK), Clock

Enable (CE), Slice Write Enable (SLICEWE1), and

Reset/Set (RS) are shared in common between the two

halves.

The LUTs located in the top and bottom portions of the slice

are referred to as "G" and "F", respectively, or the "G-LUT"

and the "F-LUT". The storage elements in the top and bot-

tom portions of the slice are called FFY and FFX, respec-

tively.

Each slice has two multiplexers with F5MUX in the bottom

portion of the slice and FiMUX in the top portion. Depending

on the slice, the FiMUX takes on the name F6MUX,

F7MUX, or F8MUX, according to its position in the multi-

plexer chain. The lower SLICEL and SLICEM both have an

F6MUX. The upper SLICEM has an F7MUX, and the upper

SLICEL has an F8MUX.

The carry chain enters the bottom of the slice as CIN and

exits at the top as COUT. Five multiplexers control the chain:

CYINIT, CY0F, and CYMUXF in the bottom portion and

CY0G and CYMUXG in the top portion. The dedicated arith-

metic logic includes the exclusive-OR gates XORF and

XORG (bottom and top portions of the slice, respectively)

as well as the AND gates FAND and GAND (bottom and top

portions, respectively).

See Table 7 for a description of all the slice input and output

signals.

Table 7: Slice Inputs and Outputs

Name

Location

F[4:1]

SLICEL/M Bottom

G[4:1]

SLICEL/M Top

SLICEL/M Bottom

SLICEL/M Top

BXOUT

SLICEM Bottom

BYOUT

SLICEM Top

ALTDIG

SLICEM Top

DIG

SLICEM Top

SLICEWE1 SLICEM Common

SLICEL/M Bottom

FXINA

SLICEL/M Top

FXINB

SLICEL/M Top

SLICEL/M Common

Direction

Input

Output

Input

Output

Input

Output

Input

Output

Input

Description

F-LUT and FAND inputs

G-LUT and GAND inputs or Write Address (SLICEM)

Bypass to or output (SLICEM) or storage element, or control input to

F5MUX, input to carry logic, or data input to RAM (SLICEM)

Bypass to or output (SLICEM) or storage element, or control input to

FiMUX, input to carry logic, or data input to RAM (SLICEM)

BX bypass output

BY bypass output

Alternate data input to RAM

ALTDIG or SHIFTIN bypass output

RAM Write Enable

Output from F5MUX; direct feedback to FiMUX

Input to FiMUX; direct feedback from F5MUX or another FiMUX

Output from FiMUX; direct feedback to another FiMUX

FFX/Y Clock Enable

FFX/Y Set or Reset or RAM Write Enable (SLICEM)

www.xilinx.com

DS312-2 (v1.1) March 21, 2005

Advance Product Specification

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