plot(s$seq, s$size, xlab="Sequence Count", ylab="Memory used[B]", main="a. memory used vs sequence count without data mining") abline(v = 273, col = "Blue") text(400, 0.7e+09, "nSeq = 273") plot(t$seq, t$size, xlab="Sequence Count", ylab="Memory used[B]", main="b. memory used vs sequence count with data mining") abline(v = 273, col = "Blue") text(450, 700, "nSeq = 273") plot(s$seq, s$time, xlab="Sequence Count", ylab="Time[s]", main="c. time vs sequence count withount data mining") abline(v = 273, col = "Blue") text(450, 300, "nSeq = 273") plot(t$seq, t$time, xlab="Sequence Count", ylab="Time[s]", main="d. time vs sequence count with data mining") abline(v = 273, col = "Blue") text(350, 20, "nSeq = 273") par(mfrow=c(2,2)) plot(s$seq, s$size, xlab="Sequence Count", ylab="Memory used[B]", main="a. memory used vs sequence count without data mining") abline(v = 273, col = "Blue") text(400, 0.6e+09, "nSeq = 273") plot(t$seq, t$size, xlab="Sequence Count", ylab="Memory used[B]", main="b. memory used vs sequence count with data mining") abline(v = 273, col = "Blue") text(400, 600, "nSeq = 273") plot(s$seq, s$time, xlab="Sequence Count", ylab="Time[s]", main="c. time vs sequence count withount data mining") abline(v = 273, col = "Blue") text(400, 300, "nSeq = 273") plot(t$seq, t$time, xlab="Sequence Count", ylab="Time[s]", main="d. time vs sequence count with data mining") abline(v = 273, col = "Blue") text(400, 15, "nSeq = 273") par(mfrow=c(2,2)) plot(s$seq, s$size, xlab="Sequence Count", ylab="Memory used[B]", main="a. memory used vs sequence count without data mining") abline(v = 273, col = "Blue") text(400, 0.6e+09, "Nseq = 273") plot(t$seq, t$size, xlab="Sequence Count", ylab="Memory used[B]", main="b. memory used vs sequence count with data mining") abline(v = 273, col = "Blue") text(400, 600, "Nseq = 273") plot(s$seq, s$time, xlab="Sequence Count", ylab="Time[s]", main="c. time vs sequence count withount data mining") abline(v = 273, col = "Blue") text(400, 300, "Nseq = 273") plot(t$seq, t$time, xlab="Sequence Count", ylab="Time[s]", main="d. time vs sequence count with data mining") abline(v = 273, col = "Blue") text(400, 15, "Nseq = 273") s = read.table('/Users/tiayyba/Desktop/euBact/ecoprimer_71493.log', header= T) t = read.table('/Users/tiayyba/Desktop/euBact/ecoprimer_84784.log', header= T) par(mfrow=c(2,2)) plot(s$seq, s$size, xlab="Sequence Count", ylab="Memory used[B]", main="a. memory used vs sequence count without data mining") plot(s$seq, s$size*1.5, xlab="Sequence Count", ylab="Memory used[B]", main="a. memory used vs sequence count without data mining") abline(v = 273, col = "Blue") text(450, 3e+09, "nSeq = 273") plot(t$seq, t$size*1.5, xlab="Sequence Count", ylab="Memory used[B]", main="b. memory used vs sequence count with data mining") abline(v = 273, col = "Blue") text(450, 1150, "nSeq = 273") par(mfrow=c(2,2)) plot(s$seq, s$size*1.5, xlab="Sequence Count", ylab="Memory used[B]", main="a. memory used vs sequence count without data mining") abline(v = 273, col = "Blue") text(450, 3e+09, "nSeq = 273") plot(t$seq, t$size*1.5, xlab="Sequence Count", ylab="Memory used[B]", main="b. memory used vs sequence count with data mining") abline(v = 273, col = "Blue") text(450, 1150, "nSeq = 273") par(mfrow=c(2,2)) plot(s$seq, s$size*1.5, xlab="Sequence Count", ylab="Memory used[B]", main="a. memory used vs sequence count without data mining") abline(v = 273, col = "Blue") text(450, 1.7e+09, "nSeq = 273") par(mfrow=c(2,2)) plot(s$seq, s$size*1.5, xlab="Sequence Count", ylab="Memory used[B]", main="a. memory used vs sequence count without data mining") abline(v = 273, col = "Blue") text(450, 1.4e+09, "nSeq = 273") plot(t$seq, t$size*1.5, xlab="Sequence Count", ylab="Memory used[B]", main="b. memory used vs sequence count with data mining") abline(v = 273, col = "Blue") text(450, 500, "nSeq = 273") par(mfrow=c(2,2)) plot(s$seq, s$size*1.5, xlab="Sequence Count", ylab="Memory used[B]", main="a. memory used vs sequence count without data mining") abline(v = 273, col = "Blue") text(450, 1.4e+09, "nSeq = 273") plot(t$seq, t$size*1.5, xlab="Sequence Count", ylab="Memory used[B]", main="b. memory used vs sequence count with data mining") abline(v = 273, col = "Blue") text(450, 500, "nSeq = 273") text(450, 1000, "nSeq = 273") par(mfrow=c(2,2)) plot(s$seq, s$size*1.5, xlab="Sequence Count", ylab="Memory used[B]", main="a. memory used vs sequence count without data mining") abline(v = 273, col = "Blue") text(450, 1.3e+09, "nSeq = 273") plot(t$seq, t$size*1.5, xlab="Sequence Count", ylab="Memory used[B]", main="b. memory used vs sequence count with data mining") abline(v = 273, col = "Blue") text(450, 1000, "nSeq = 273") plot(s$seq, s$time, xlab="Sequence Count", ylab="Time[s]", main="c. time vs sequence count withount data mining") abline(v = 273, col = "Blue") text(450, 700, "nSeq = 273") plot(t$seq, t$time, xlab="Sequence Count", ylab="Time[s]", main="d. time vs sequence count with data mining") abline(v = 273, col = "Blue") text(450, 30, "nSeq = 273") s = read.table('/Users/tiayyba/Desktop/UsedistRef1.txt', header = T) s plot(s$Distance, s$Count) plot(s$Distance, log(s$Count)) plot(log(s$Distance), log(s$Count)) plot(s$Distance, log(s$Count)) s = read.table('/Users/tiayyba/Desktop/UU_results/UU_F83/plots/F83_distRef1.old.txt', header = T) plot(s$Distance, log(s$Count)) s = read.table('/Users/tiayyba/Desktop/UsedistRef1.txt', header = T) plot(s$Distance*100, log(s$Count)) s = read.table('/Users/tiayyba/Desktop/UU_results/UU_F83/plots/F83_distRef1.old.txt', header = T) plot(s$Distance, log(s$Count)) s = read.table('/Users/tiayyba/Desktop/UsedistRef1.txt', header = T) plot(s$Distance, log(s$Count)) s = read.table('/Users/tiayyba/Desktop/UU_results/UU_F83/plots/F83_distRef1.old.txt', header = T) plot(s$Distance, log(s$Count)) s = read.table('/Users/tiayyba/Desktop/UsedistRef1.txt', header = T) plot(s$Distance, log(s$Count)) plot(s$Distance*1000, log(s$Count)) s = read.table('/Users/tiayyba/Desktop/UsedistRef1.txt', header = T) plot(s$Distance*1000, log(s$Count)) u = read.table('/Users/tiayyba/Desktop/UU_FdistRef2.txt', header = T) u max(u$Count) max(u$Distance) plot(u$Distance, u$Count) plot(log(u$Distance), log(u$Count)) plot(u$Distance, u$Count, log(xy)) plot(u$Distance, u$Count, log=xy) plot(u$Distance, u$Count, log='xy') plot(u$Distance+1, u$Count, log='xy') plot(u$Distance, u$Count, log='xy') ?plot s = read.table('/Users/tiayyba/Desktop/UU_FdistRef1.txt', header = T) plot(s$Distance, s$Count) plot(log(s$Distance), log(s$Count)) plot(s$Distance, s$Count, log='xy') plot(s$Distance, log(s$Count)) s = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F83/plots/F83_distRef1.old.txt', header = T) s sNew = s[order(s$Count),] sNew plot(s$Distance, s$Count) s = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F83/plots/F83_distRef1.old.txt', header = T) t = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F83/plots/F83_distRef2.old.txt', header = T) s = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F83/plots/F83_distRef2.old.txt', header = T) u = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F83/plots/F83_distRef1.old.txt', header = T) t = data.frame(count=s$Count,uu=u$Distance,cs=s$Distance,col=(s$Distance < u$Distance)+1) plot(s$Distance,s$Count,log='xy',col=t$col) par(mfrow=c(1,2)) plot(s$Distance+1,s$Count,log='xy',col=t$col) plot(u$Distance+1,u$Count,log='xy',col=t$col) s = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F83/plots/F83_distRef2.old.txt', header = T) u = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F83/plots/F83_distRef1.old.txt', header = T) t = data.frame(count=s$Count,uu=u$Distance,cs=s$Distance,col=(s$Distance < u$Distance)+1) plot(u$Distance+1,u$Count,log='xy',col=t$col) par(mfrow=c(1,2)) plot(s$Distance+1,s$Count,log='xy',col=t$col) plot(u$Distance+1,u$Count,log='xy',col=t$col) s = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F82/plots/F82_distRef1.txt', header = F) s = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F82/plots/F82_distRef1.txt', header = T) s = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F82/plots/F82_distRef2.txt', header = T) u = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F82/plots/F82_distRef1.txt', header = T) t = data.frame(count=s$Count,uu=u$Distance,cs=s$Distance,col=(s$Distance < u$Distance)+1) t = data.frame(count=u$Count,uu=u$Distance,cs=s$Distance,col=(s$Distance < u$Distance)+1) s = read.table('/Users/tiayyba/Desktop/abc'header = F) s = read.table('/Users/tiayyba/Desktop/abc', header = F) plot(s) s s = read.table('/Users/tiayyba/Desktop/abc', header = F) s plot(s$V2, s$V1) plot(s$V1, s$V2) plot(s$V1, s$V2, xlab="sequence number", ylab="sequence count") s = read.table('/Users/tiayyba/Desktop/abc', header = F) s s = read.table('/Users/tiayyba/Desktop/abc', header = F) s Sr tacg gcta ctag actg par(mfrow=c(2,2)) plot(s$V1, s$V2, xlab="sequence number", ylab="sequence count", main = "sample: tacg") plot(s$V1, s$V3, xlab="sequence number", ylab="sequence count", main = "sample: gcta") plot(s$V1, s$V4, xlab="sequence number", ylab="sequence count", main = "sample: ctag") plot(s$V1, s$V5, xlab="sequence number", ylab="sequence count", main = "sample: actg") s = read.table('/Users/tiayyba/Desktop/abc', header = F) s plot(s$V1, s$V2, xlab="sequence number", ylab="sequence count", main = "sample: Ranunculus_acris") Sr tacg gcta ctag actg par(mfrow=c(2,2)) plot(s$V1, s$V2, xlab="sequence number", ylab="sequence count", main = "sample: Ranunculus_acris") plot(s$V1, s$V3, xlab="sequence number", ylab="sequence count", main = "sample: Luzula_sudetica") plot(s$V1, s$V4, xlab="sequence number", ylab="sequence count", main = "sample: Deschampsia_cespitosa") plot(s$V1, s$V5, xlab="sequence number", ylab="sequence count", main = "sample: Cardamine_pratensis_paludosa") s = read.table('/Users/tiayyba/Desktop/abc', header = F) par(mfrow=c(2,2)) plot(s$V1, s$V2, xlab="sequence number", ylab="sequence count", main = "sample 1: Ranunculus_acris") plot(s$V1, s$V3, xlab="sequence number", ylab="sequence count", main = "sample 2: Luzula_sudetica") plot(s$V1, s$V4, xlab="sequence number", ylab="sequence count", main = "sample 3: Deschampsia_cespitosa") plot(s$V1, s$V5, xlab="sequence number", ylab="sequence count", main = "sample 4: Cardamine_pratensis_paludosa") s = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F83/plots/F83_dist.txt', header = F) s = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F83/plots/F83_dist.txt', header = F, row.names = 1) s = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F83/plots/F83_dist.txt', header = F, row.names=1) s = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F83/plots/F83_dist.txt',row.names=1) s plot(s$count, s$uu) plot(s$uu, s$count) plot(s$uu, s$count, col = s$col) plot(s$cs, s$count, col = s$col) plot(s$cs, s$count, col = s$col, col = (s$uu < s$cs) +1) plot(s$uu, s$count) plot(log(s$uu), log(s$count)) plot(s$uu, log(s$count)) plot(log(s$uu), log(s$count)) plot(s$uu, s$count) plot(s$uu, log(s$count)) plot(s$uu, log(s$count), xlab = "distance from Uncia uncia", ylab = "log(SequenceCount)") = read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F83/plots/F83_dist.txt', header = T) s= read.table('/Users/tiayyba/Desktop/ErrModel/Borneo/UnciaUncia/UU_F83/plots/F83_dist.txt', header = T) s par(mfrow = c(1,2)) plot(s$cs, s$count, col = s$col) plot(s$cs, s$count,log = 'xy', col = s$col) par(mfrow = c(1,2)) plot(s$cs, s$count,log = 'xy', col = s$col) plot(s$uu, s$count,log = 'xy', col = s$col) score = (0.407)*0.890*exp(-sqrt(692.33/1.247)) score score1 = (0.511)*0.904*exp(-sqrt(481/148.5)) score1 score1 = sqrt(481/148.5) score1 score = sqrt(692.33/1.247) score score = (0.407)^2*0.890*sqrt(692.33/1.247) score score1 = (0.511)^2*0.904*sqrt(481/148.5) score1 score = (0.407)*0.890*sqrt(692.33/1.247) score score1 = (0.511)*0.904*sqrt(481/148.5) score1 score = (0.407)*0.890*692.33/sqrt(1.247) score score1 = (0.511)*0.904*481/sqrt(148.5) score1 sum = 714 + 710 + 699 sum 2123/3 1760+3210+4950+2090 12010+3300+220 4400+385+55+495+715+800+450+2200+1540+1210+550 944 - 220 724 - 40 684 -10 364-278 944-657 250+220 7*9 q quit s = read.table('metazoas_Mdyn_T50.gv') s = read.table('metazoas_Mdyn_T50.gv.hist.gv') t = read.table('test.gv') hist(t$V3) hist(s$V3)