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EPM1270GT144C5N 参数 Datasheet PDF下载

EPM1270GT144C5N图片预览
型号: EPM1270GT144C5N
PDF下载: 下载PDF文件 查看货源
内容描述: [Flash PLD, 10ns, 980-Cell, CMOS, PQFP144, 22 X 22 MM, 0.50 MM PITCH, LEAD FREE, TQFP-144]
分类和应用: 输入元件可编程逻辑
文件页数/大小: 88 页 / 982 K
品牌: INTEL [ INTEL ]
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Chapter 2: MAX II Architecture  
2–5  
Logic Array Blocks  
Figure 2–4. DirectLink Connection  
DirectLink interconnect from  
right LAB or IOE output  
DirectLink interconnect from  
left LAB or IOE output  
LE0  
LE1  
LE2  
LE3  
LE4  
LE5  
LE6  
LE7  
LE8  
LE9  
DirectLink  
interconnect  
to left  
DirectLink  
interconnect  
to right  
Local  
Interconnect  
Logic Element  
LAB  
LAB Control Signals  
Each LAB contains dedicated logic for driving control signals to its LEs. The control  
signals include two clocks, two clock enables, two asynchronous clears, a  
synchronous clear, an asynchronous preset/load, a synchronous load, and  
add/subtract control signals, providing a maximum of 10 control signals at a time.  
Although synchronous load and clear signals are generally used when implementing  
counters, they can also be used with other functions.  
Each LAB can use two clocks and two clock enable signals. Each LAB’s clock and  
clock enable signals are linked. For example, any LE in a particular LAB using the  
labclk1signal also uses labclkena1. If the LAB uses both the rising and falling  
edges of a clock, it also uses both LAB-wide clock signals. Deasserting the clock  
enable signal turns off the LAB-wide clock.  
Each LAB can use two asynchronous clear signals and an asynchronous load/preset  
signal. By default, the Quartus II software uses a NOTgate push-back technique to  
achieve preset. If you disable the NOTgate push-back option or assign a given register  
to power-up high using the Quartus II software, the preset is then achieved using the  
asynchronous load signal with asynchronous load data input tied high.  
With the LAB-wide addnsub control signal, a single LE can implement a one-bit adder  
and subtractor. This saves LE resources and improves performance for logic functions  
such as correlators and signed multipliers that alternate between addition and  
subtraction depending on data.  
The LAB column clocks [3..0], driven by the global clock network, and LAB local  
interconnect generate the LAB-wide control signals. The MultiTrack interconnect  
structure drives the LAB local interconnect for non-global control signal generation.  
The MultiTrack interconnect’s inherent low skew allows clock and control signal  
distribution in addition to data. Figure 2–5 shows the LAB control signal generation  
circuit.  
© October 2008 Altera Corporation  
MAX II Device Handbook  
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