I would like to use the Barabási–Albert (BA) Preferential Attachment model in order to generate graph with specified properties. Numbers of vertices and edges: V(g)=20, E(g)=72, respectively. Vectors of in- and out-degrees are known too. I would like to generate the directed graph without loops, multiple edges and isolated vertices.

Could somebody please give some ideas how to set parameters of the function barabasi.game()? My current settings are:

```
out_seq<-degree(g, mode="out")
sum(out_seq)
#[1] 72
g1<-barabasi.game(20,out.seq = out_seq)
summary(g1)
#IGRAPH D--- 20 62 -- Barabasi graph
#+ attr: name (g/c), power (g/n), m (g/x), zero.appeal (g/n),
#| algorithm (g/c)
has.multiple(g1)
#[1] FALSE
```

Previously I used the function `degree.sequence.game()`

. It's working but I must remove the parameter: `method="vl"`

```
degs_out <- degree(g, mode="out")
degs_in <- degree(g, mode="in")
g1<-degree.sequence.game(degs_out, degs_in)#, method="vl")
# IGRAPH D D--- 20 72 -- Degree sequence random graph
#+ attr: name (g/c), method (g/c)
```

Thanks.

**Edit.** `vl`

and `v1`

are different. In the first case `vl`

are two letters `v`

and `l`

, in the second case `v1`

includes the letter `v`

and number `1`

.

`is_simple`

. The algorithm argument has some discussion on this here: igraph.org/r/doc/sample_pa.html – dougmet Jan 5 '16 at 14:00Its first element is ignoredas no edges are added in the first time step." Maybe the first element is being ignored with 10 edges in it? – dougmet Jan 5 '16 at 14:03