N=int(input())
ABC=[]
for i in range(N):
    a,b,c=map(int,input().split())
    ABC.append((a,b,c))
def idx(bit,i,x,y):
    return ((bit*N+i)*3+x)*3+y
trans=[[] for ij in range(N*N)]
for i in range(N):
    for j in range(N):
        if i==j:
            continue
        for x0 in range(3):
            for y0 in range(3):
                if x0==y0:
                    continue
                for x1 in range(3):
                    for y1 in range(3):
                        if x1==y1:
                            continue
                        if ABC[i][x0]>=ABC[j][x1] and ABC[i][y0]>=ABC[j][y1]:
                            trans[i*N+j].append((x0,y0,x1,y1,ABC[j][3-x1-y1]))

inf=1<<30
dp=[-inf]*((9*N)<<N)
for bit in range(1,1<<N):
    I=[i for i in range(N) if bit&1<<i]
    if len(I)==1:
        for x in range(3):
            for y in range(3):
                if x==y:
                    continue
                dp[idx(bit,I[0],x,y)]=ABC[I[0]][3-x-y]
    else:
        for i in I:
            for j in I:
                if i==j:
                    continue
                for x0,y0,x1,y1,h in trans[i*N+j]:
                    dp[idx(bit,j,x1,y1)]=max(dp[idx(bit,j,x1,y1)],dp[idx(bit^1<<j,i,x0,y0)]+h)
ans=max(dp)
print(ans)