PN序列生成器的基本结构为LFSR(linear feedback shift register),在通信领域PN序列可作为测试数据源或者扰码生成器使用。基本信息和结构可参考 Matlab中的PN序列产生模块说明
pn_sequence_setupex.png
上图中,按照Matlab定义,对应的生成多项式为z^6+z+1,即[6 1 0],或者[1 0 0 0 0 1 1]
参考生成代码
[17 3 0]生成matlab代码(标准参考为[17 14 0])
%% serial for PN17 [17,3,0]
pn = ones(1,17);
N = 2^17-1;
M = 2*N;
for i=1:M
outpn(1,i) = pn(17);
pn17 = pn(17);
pn14 = pn(14);
pn(17:-1:2) = pn(16:-1:1);
pn(1) = xor(pn17, pn14);
end
上面生成的PN17周期应为2^17-1
% verify the period of PN seq
equRcrd = 1;
for k = 1:N
if outpn(k) ~= outpn(k+N)
equRcrd = 0;
end
end
equRcrd
遍历性(部分的,全遍历时间太长)
% Traversal
% only for 1:100, due to the long running time
% you can change the traversal range
ofst = 1000;
for i=(1+ofst):(10+ofst) %N-17
cnt(i)=0;
for k=(i+1):N-16
if outpn(i:i+16) == outpn(k:k+16)
cnt(i) = cnt(i)+1;
end
end
end
max(cnt)
并行8路[17 3 0] (输出为小端 little endian)
pn_p8 = ones(1,17);
N_p8 = 2^17/8;
for i=1:N_p8
outpn_p8(:,i) = pn_p8(17:-1:10);
pn_p8_copy = pn_p8;
pn_p8(17:-1:9) = pn_p8(9:-1:1);
pn_p8(8:-1:1) = xor(pn_p8_copy(17:-1:10),pn_p8_copy(14:-1:7));
end
VHDL代码, 并行8路 (输出为小端 little endian)
d_output(7) <= pn17_pd(10);
d_output(6) <= pn17_pd(11);
d_output(5) <= pn17_pd(12);
d_output(4) <= pn17_pd(13);
d_output(3) <= pn17_pd(14);
d_output(2) <= pn17_pd(15);
d_output(1) <= pn17_pd(16);
d_output(0) <= pn17_pd(17);
pn17_pd(17 downto 9) <= pn17_pd(9 downto 1);
pn17_pd(8 downto 1) <= pn17_pd(17 downto 10) xor pn17_pd(14 downto 7);
对于上述8路并行代码,采用此种简洁形式的前提是满足17-3-8 >= 0,否则生成代码会复杂
