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EP20K400E Datasheet(PDF) 20 Page - Altera Corporation |
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EP20K400E Datasheet(HTML) 20 Page - Altera Corporation |
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20 / 117 page  20 Altera Corporation APEX 20K Programmable Logic Device Family Data Sheet The counter mode uses two three-input LUTs: one generates the counter data, and the other generates the fast carry bit. A 2-to-1 multiplexer provides synchronous loading, and another AND gate provides synchronous clearing. If the cascade function is used by an LE in counter mode, the synchronous clear or load overrides any signal carried on the cascade chain. The synchronous clear overrides the synchronous load. LEs in arithmetic mode can drive out registered and unregistered versions of the LUT output. Clear & Preset Logic Control Logic for the register’s clear and preset signals is controlled by LAB-wide signals. The LE directly supports an asynchronous clear function. The Quartus II software Compiler can use a NOT-gate push-back technique to emulate an asynchronous preset. Moreover, the Quartus II software Compiler can use a programmable NOT-gate push-back technique to emulate simultaneous preset and clear or asynchronous load. However, this technique uses three additional LEs per register. All emulation is performed automatically when the design is compiled. Registers that emulate simultaneous preset and load will enter an unknown state upon power-up or when the chip-wide reset is asserted. In addition to the two clear and preset modes, APEX 20K devices provide a chip-wide reset pin (DEV_CLRn) that resets all registers in the device. Use of this pin is controlled through an option in the Quartus II software that is set before compilation. The chip-wide reset overrides all other control signals. Registers using an asynchronous preset are preset when the chip-wide reset is asserted; this effect results from the inversion technique used to implement the asynchronous preset. FastTrack Interconnect In the APEX 20K architecture, connections between LEs, ESBs, and I/O pins are provided by the FastTrack Interconnect. The FastTrack Interconnect is a series of continuous horizontal and vertical routing channels that traverse the device. This global routing structure provides predictable performance, even in complex designs. In contrast, the segmented routing in FPGAs requires switch matrices to connect a variable number of routing paths, increasing the delays between logic resources and reducing performance. The FastTrack Interconnect consists of row and column interconnect channels that span the entire device. The row interconnect routes signals throughout a row of MegaLAB structures; the column interconnect routes signals throughout a column of MegaLAB structures. When using the row and column interconnect, an LE, IOE, or ESB can drive any other LE, IOE, or ESB in a device. See Figure 9. |
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